WO1997008796A1 - Appareillage electrique modulaire - Google Patents
Appareillage electrique modulaire Download PDFInfo
- Publication number
- WO1997008796A1 WO1997008796A1 PCT/US1996/013727 US9613727W WO9708796A1 WO 1997008796 A1 WO1997008796 A1 WO 1997008796A1 US 9613727 W US9613727 W US 9613727W WO 9708796 A1 WO9708796 A1 WO 9708796A1
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- WO
- WIPO (PCT)
- Prior art keywords
- conductor
- wire
- blade
- ofthe
- conductors
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G3/00—Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R24/00—Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
- H01R24/76—Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure with sockets, clips or analogous contacts and secured to apparatus or structure, e.g. to a wall
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R25/00—Coupling parts adapted for simultaneous co-operation with two or more identical counterparts, e.g. for distributing energy to two or more circuits
- H01R25/006—Coupling parts adapted for simultaneous co-operation with two or more identical counterparts, e.g. for distributing energy to two or more circuits the coupling part being secured to apparatus or structure, e.g. duplex wall receptacle
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G3/00—Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
- H02G3/02—Details
- H02G3/08—Distribution boxes; Connection or junction boxes
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/59—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2103/00—Two poles
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R31/00—Coupling parts supported only by co-operation with counterpart
- H01R31/06—Intermediate parts for linking two coupling parts, e.g. adapter
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/28—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for wire processing before connecting to contact members, not provided for in groups H01R43/02 - H01R43/26
Definitions
- the present invention relates to the field of electrical components and more particularly to those electrical components which constitute common residential electrical circuits.
- Conventional residential electrical circuits consist of components such as electrical receptacles, various types of light switches, electrical boxes, and electrical cables. These conventional components require time-consuming, cumbersome wiring practices.
- the electrical devices such as receptacles and switches must be wired prior to inserting them into their respective electrical box. This requires that the wires be of extra length to facilitate this wiring practice. This excess wire must then be stuffed into the electrical box as the electrical device is installed.
- These conventional electrical circuits often require the use of wire nuts to connect several wires together in the electrical boxes. These wires must also be of extra length to facilitate wiring and then stuffed into the electrical box as well.
- Another object ofthe present invention to provide an electrical system which utilizes modular components which assemble quickly and easily in a specific manner so as to self- configure the common residential lighting and general utility circuits by simply selecting the proper components.
- It is a further object of this invention is to provide an electrical system which self- distributes a dedicated earth ground to each electrical component with little or no effort on the part ofthe installer, thereby eliminating negligence in this wiring practice and reducing potential fire hazards and risk of electrical shock to users of these circuits.
- a still further object of this invention is to provide an electrical system which utilizes modular electrical components in which the replaceable components such as the receptacles and switches simply plug into the prewired electrical box, thereby permitting easy removal and replacement.
- Another object of this invention is to provide an electrical system which does not utilize wire nuts.
- a still further object is to provide an electrical system which is conducive to electrical circuit expansions and modifications after the initial installation is complete.
- Fig. 1 is a front elevation view ofthe wallbox.
- Fig. 2 is a plan view ofthe wallbox.
- Fig. 3 is a vertical section view taken along line 3-3 of Fig. 1 shown in exploded form.
- Fig. 4 is a horizontal section view taken along line 4-4 of Fig. 1 shown in exploded form.
- Fig. 5 is a horizontal section view taken along line 5-5 of Fig. 1.
- Fig. 6 is a vertical section view taken along line 6-6 of Fig. 1 shown with the electrical box molded with the wiring module base as one piece.
- Fig. 7 is a front elevation view ofthe receptacle module.
- Fig. 8 is a side elevation view ofthe receptacle module.
- Fig. 9 is a plan view ofthe receptacle module.
- Fig. 10 is a horizontal section view taken along line 10-10 of Fig. 7.
- Fig. 11 is a horizontal section view taken along line 11-11 of Fig. 7.
- Fig. 12 is a horizontal section view taken along line 12-12 of Fig. 7. . - . .
- Fig. 14 is a front elevation view ofthe ganging module.
- Fig. 10 is a horizontal section view taken along line 10-10 of Fig. 7.
- Fig. 11 is a horizontal section view taken along line 11-11 of Fig. 7.
- Fig. 12 is a horizontal section view taken along line 12-12 of
- Fig. 15 is a side elevation view ofthe ganging module.
- Fig. 16 is a plan view ofthe ganging module.
- Fig. 17 is a horizontal section view taken along line 17-17 of Fig. 14.
- Fig. 18 is a horizontal section view taken along line 18-18 of Fig. 14.
- Fig. 19 is a horizontal section view taken along line 19-19 of Fig. 14.
- Fig. 20 is a front elevation view ofthe 2-way-switch module.
- Fig. 21 is a side elevation view ofthe 2-way-switch module.
- Fig. 22 is a plan view ofthe 2-way-switch module.
- Fig. 23 is a horizontal section view taken along line 23-23 of Fig. 20.
- Fig. 24 is a horizontal section view taken along line 24-24 of Fig. 20.
- Fig. 25 is a horizontal section view taken along line 25-25 of Fig. 20.
- Fig. 26 is a vertical section view taken along line 26-26 of Fig. 20 with the lever in the up position.
- Fig. 27 is a vertical section view taken along line 27-27 of Fig. 20 with the lever in the down position.
- Fig. 28 is a front elevation view ofthe 3-way-switch module.
- Fig. 29 is a side elevation view ofthe 3-way-switch module.
- Fig. 30 is a plan view ofthe 3-way-switch module.
- Fig. 31 is a horizontal section view taken along line 31-31 of Fig. 28.
- Fig. 32 is a horizontal section view taken along line 32-32 of Fig. 28.
- Fig. 33 is a horizontal section view taken along line 33-33 of Fig. 28.
- Fig. 34 is a vertical section view taken along line 34-34 of Fig. 28 with the lever in the up position.
- Fig. 35 is a vertical section view taken along line 35-35 of Fig. 28 with the lever in the down position.
- Fig. 36 is a vertical section view taken along line 36-36 of Fig. 28 with the lever in the up position.
- Fig. 37 is a vertical section view taken along line 37-37 of Fig. 28 with the lever in the down position.
- Fig. 38 is a front elevation view ofthe 4-way-switch module.
- Fig. 39 is a side elevation view ofthe 4-way-switch module.
- Fig. 34 is a vertical section view taken along line 34-34 of Fig. 28 with the lever in the up position.
- Fig. 35 is a vertical section view taken along line 35-35 of Fig. 28 with the lever in the down position.
- Fig. 40 is a plan view ofthe 4-way-switch module.
- Fig. 41 is a horizontal section view taken along line 41-41 of Fig. 38.
- Fig. 42 is a horizontal section view taken along line 42-42 of Fig. 38.
- Fig. 43 is a horizontal section view taken along line 43-43 of Fig. 38.
- Fig. 44 is a vertical section view taken along line 44-44 of Fig. 38 with the lever in the up position.
- Fig. 46 is a vertical section view taken along line 46-46 of Fig. 38 with the lever in the up position.
- Fig. 47 is a vertical section view taken along line 47-47 of Fig. 38 with the lever in the down position.
- Fig. 48 is a front elevation view ofthe dimmer switch module.
- Fig. 49 is a side elevation view ofthe dimmer switch module.
- Fig. 50 is a plan view ofthe dimmer switch module.
- Fig. 51 is a horizontal section view taken along line 51-51 of Fig. 48.
- Fig. 52 is a horizontal section view taken along line 52-52 of Fig. 48.
- Fig. 53 is a horizontal section view taken along line 53-53 of Fig. 48.
- Fig. 54 is a vertical section view taken along line 54-54 of Fig. 48.
- Fig. 55 is a front elevation view ofthe fan-control switch module.
- Fig. 51 is a horizontal section view taken along line 51-51 of Fig. 48.
- Fig. 52 is a horizontal section view taken along line 52-52 of Fig. 48.
- Fig. 56 is a side elevation view ofthe fan-control switch module.
- Fig. 57 is a plan view ofthe fan-control switch module.
- Fig. 58 is a horizontal section view taken along line 58-58 of Fig. 55.
- Fig. 59 is a horizontal section view taken along line 59-59 of Fig. 55.
- Fig. 60 is a horizontal section view taken along line 60-60 of Fig. 55.
- Fig. 61 is a vertical section view taken along line 61-61 of Fig. 55.
- Fig. 62 is a front elevation view ofthe timer switch module.
- Fig. 63 is a side elevation view ofthe timer switch module.
- Fig. 64 is a plan view ofthe timer switch module.
- Fig. 65 is a horizontal section view taken along line 65-65 of Fig. 62.
- Fig. 66 is a horizontal section view taken along line 66-66 of Fig. 62.
- Fig. 67 is a horizontal section view taken along line 67-67 of Fig. 62.
- Fig. 68 is a vertical section view taken along line 68-68 of Fig. 62.
- Fig. 69 is a front elevation view ofthe GFCI receptacle module.
- Fig. 70 is a side elevation view ofthe GFCI receptacle module.
- Fig. 71 is a plan view ofthe GFCI receptacle module.
- Fig. 72 is a horizontal section view taken along line 72-72 of Fig. 69.
- 73 is a horizontal section view taken along line 73-73 of Fig. 69.
- Fig. 74 is a horizontal section view taken along line 74-74 of Fig. 69.
- Fig. 75 is a horizontal section view taken along line 75-75 of Fig. 69.
- Fig. 76 is a front elevation view ofthe 240 volt receptacle module.
- Fig. 77 is a side elevation view ofthe 240 volt receptacle module.
- Fig. 78 is a plan view ofthe 240 volt receptacle module.
- Fig. 79 is a horizontal section view taken along line 79-79 of Fig. 76.
- Fig. 80 is a horizontal section view taken along line 80-80 of Fig. 76.
- Fig. 81 is a horizontal section view taken along line 81-81 of Fig. 76. . w a en ne - o g. .
- Fig. 83 is a front elevation view ofthe junction box.
- Fig. 84 is a side elevation view of the junction box.
- Fig. 85 is a plan view of the junction box shown in exploded form.
- Fig. 86 is a horizontal section view taken along line 86-86 of Fig. 85.
- Fig. 87 is a horizontal section view taken along line 87-87 of Fig. 85.
- Fig. 88 is a horizontal section view taken along line 88-88 of Fig. 85.
- Fig. 89 is a horizontal section view taken along line 89-89 of Fig. 83.
- Fig. 90 is a vertical section view taken along line 90-90 of Fig. 83.
- Fig. 91 is a vertical section view taken along line 91-91 of Fig. 83 shown with the electrical box molded with the wiring module base as one piece.
- Fig. 92 is a front elevation view ofthe light box.
- Fig. 93 is a right-side elevation view ofthe light box.
- Fig. 94 is a left-side elevation view ofthe light box.
- Fig. 95 is a plan view ofthe light box.
- Fig. 96 is a bottom view ofthe light box.
- Fig. 97 is a plan view ofthe light box shown in exploded form.
- Fig. 98 is a right-side view ofthe light box shown in exploded form.
- Fig. 99 is a vertical section view taken along line 99-99 of Fig. 98.
- Fig 100 is a vertical section view taken along line 100-100 of Fig. 98.
- Fig. 101 is a vertical section view taken along line 101-101 of Fig. 98.
- Fig 102 is a horizontal section view taken along line 102-102 of Fig. 92.
- Fig. 103 is a vertical section view taken along line 103-103 of Fig. 92.
- Fig 104 is a vertical section view taken along line 104-104 of Fig. 92 shown with the electrical box molded with the wiring module base as one piece.
- Fig. 105 is a front elevation view ofthe 2-wire jumper.
- Fig 106 is a bottom view ofthe 2-wire jumper.
- Fig. 107 is a front elevation view ofthe 4- wire jumper.
- Fig 108 is a bottom view ofthe 4-wire jumper.
- Fig. 109 is a front elevation view ofthe wallbox jumper.
- Fig. 1 10 is a side elevation view ofthe wallbox jumper.
- Fig. 111 is a plan view ofthe wallbox jumper.
- Fig. 112 is a bottom view ofthe wallbox jumper.
- Fig 113 is a front elevation view ofthe 3-conductor cable.
- Fig. 114 is a cross-section view ofthe 3-conductor cable.
- Fig. 115 is a front elevation view ofthe 4-conductor cable.
- Fig 116 is a cross-section view ofthe 4-conductor cable.
- Fig 117 is a front elevation view ofthe 5-conductor cable.
- Fig. 118 is a cross-section view ofthe 5-conductor cable. . - the wallbox.
- Fig. 120 is a plan view of Fig. 119.
- Fig. 121 is a vertical section view taken along line 121-121 of Fig. 119.
- Fig. 122 is a horizontal section view taken along line 122-122 of Fig. 119.
- Fig. 123 is a horizontal section view taken along line 123-123 of Fig. 119.
- Fig. 124 is a horizontal section view taken along line 124-124 of Fig. 119.
- Fig. 125 is a front elevation view ofthe ganging module and 3-conductor cables installed in the wallbox.
- Fig. 126 is a plan view of Fig. 125.
- Fig. 127 is a vertical section view taken along line 127-127 of Fig. 125.
- Fig. 128 is a horizontal section view taken along line 128-128 of Fig. 125.
- Fig. 129 is a horizontal section view taken along line 129-129 of Fig. 125.
- Fig. 130 is a horizontal section view taken along line 130-130 of Fig. 125.
- Fig. 131 is a front elevation view of two wallboxes connected with the wallbox jumper.
- Fig. 132 is a horizontal section view taken along line 132-132 of Fig. 131.
- Fig. 133 is a front elevation view ofthe 2-way-switch module and 3-conductor cable installed in the wallbox.
- Fig. 134 is a plan view of Fig. 133.
- Fig. 135 is a vertical section view taken along line 135-135 of Fig. 133 with the lever in the down position.
- Fig. 136 is a vertical section view taken along line 136-136 of Fig. 133 with the lever in the up position.
- Fig. 137 is a horizontal section view taken along line 137-137 of Fig. 133.
- Fig. 138 is a horizontal section view taken along line 138-138 of Fig. 133.
- Fig. 139 is a horizontal section view taken along line 139-139 of Fig. 133.
- Fig. 140 is a front elevation view ofthe 3-way-switch module and 4-conductor cable installed in the wallbox.
- Fig. 141 is a plan view of Fig. 140.
- Fig. 142 is a vertical section view taken along line 142-142 of Fig. 140 with the lever in the down position.
- Fig. 143 is a vertical section view taken along line 143-143 of Fig. 140 with the lever in the up position.
- Fig. 144 is a vertical section view taken along line 144-144 of Fig. 140 with the lever in the down position.
- Fig. 145 is a vertical section view taken along line 145-145 of Fig. 140 with the lever in the up position.
- Fig. 146 is a horizontal section view taken along line 146-146 of Fig. 140.
- Fig. 147 is a horizontal section view taken along line 147-147 of Fig. 140.
- Fig. 142 is a vertical section view taken along line 142-142 of Fig. 140 with the lever in the down position.
- Fig. 143 is a vertical section view taken along line 143-143 of Fig
- Fig. 150 is a plan view of Fig. 149.
- Fig. 151 is a vertical section view taken along line 151-151 of Fig. 149 with the lever in the down position.
- Fig. 152 is a vertical section view taken along line 152-152 of Fig. 149 with the lever in the up position.
- Fig. 153 is a vertical section view taken along line 153-153 of Fig. 149 with the lever in the down position.
- Fig. 154 is a vertical section view taken along line 154-154 of Fig. 149 with the lever in the up position.
- Fig. 150 is a plan view of Fig. 149.
- Fig. 151 is a vertical section view taken along line 151-151 of Fig. 149 with the lever in the down position.
- Fig. 152 is a vertical section view taken along line 152-152 of Fig. 149 with the lever in the up position.
- Fig. 153 is a vertical section view taken along line 153
- Fig. 155 is a horizontal section view taken along line 155-155 of Fig. 149.
- Fig. 156 is a horizontal section view taken along line 156-156 of Fig. 149.
- Fig. 157 is a horizontal section view taken along line 157-157 of Fig. 149.
- Fig. 158 is a front elevation view ofthe dimmer switch module and 3-conductor cable installed in the wallbox.
- Fig. 159 is a plan view of Fig. 158.
- Fig. 160 is a vertical section view taken along line 160-160 of Fig. 158.
- Fig. 161 is a horizontal section view taken along line 161-161 of Fig. 158.
- Fig. 162 is a horizontal section view taken along line 162-162 of Fig. 158.
- Fig. 163 is a horizontal section view taken along line 163-163 of Fig. 158.
- Fig. 164 is a front elevation view ofthe fan-control switch module and 3-conductor cable installed in the wallbox.
- Fig. 165 is a pian view, of Fig. 164.
- Fig. 166 is a vertical section view taken along line 166-166 of Fig. 164.
- Fig. 167 is a horizontal section view taken along line 167-167 of Fig. 164.
- Fig. 168 is a horizontal section view taken along line 168-168 of Fig. 164.
- Fig. 169 is a horizontal section view taken along line 169-169 of Fig. 164.
- Fig. 170 is a front elevation view ofthe timer switch module and 3-conductor cable installed in the wallbox.
- Fig. 171 is a plan view of Fig. 170.
- Fig. 172 is a vertical section view taken along line 172-172 of Fig. 170.
- Fig. 173 is a horizontal section view taken along line 173-173 of Fig. 170.
- Fig. 174 is a horizontal section view taken along line 174-174 of Fig. 170.
- Fig. 175 is a horizontal section view taken along line 175-175 of Fig. 170.
- Fig. 176 is a front elevation view ofthe GFCI receptacle module and 3-conductor cables installed in the wallbox.
- Fig. 177 is a plan view of Fig. 176.
- Fig. 178 is a vertical section view taken along line 178-178 of Fig. 176.
- Fig. 179 is a horizontal section view taken along line 179-179 of Fig. 176.
- Fig. 181 is a horizontal section view taken along line 181-181 ofFig. 176.
- Fig. 182 is a horizontal section view taken along line 182-182 of Fig. 176.
- Fig. 183 is a front elevation view ofthe 240 volt receptacle module and 4-conductor cable installed in the wallbox.
- Fig. 184 is a plan view of Fig. 183.
- Fig. 185 is a vertical section view taken along line 185-185 of Fig. 183.
- Fig. 186 is a horizontal section view taken along line 186-186 of Fig. 183.
- Fig. 187 is a horizontal section view taken along line 187-187 of Fig. 183.
- Fig. 188 is a horizontal section view taken along line 188-188 of Fig. 183.
- Fig. 189 is a front elevation view of the junction box with the 3-conductor cables installed.
- Fig. 190 is a plan view of Fig. 189.
- Fig. 191 is a front elevation view of Fig. 189, shown in line-schematic form.
- Fig. 192 is a front elevation view ofthe light box wired for a 2-way lighting circuit.
- Fig. 193 is a left-side view of Fig. 192.
- Fig. 194 is a right-side view of Fig. 192.
- Fig. 195 is a plan view of Fig. 192.
- Fig. 196 is a bottom view of Fig. 192.
- Fig. 197 is a front elevation view of Fig. 192, shown in line-schematic form.
- Fig. 198 is a front elevation view ofthe light box wired for a 3-way lighting circuit.
- Fig. 199 is a plan view of Fig. 198.
- Fig. 200 is a bottom view of Fig. 198.
- Fig. 201 is a front elevation view of Fig. 198, shown in line-schematic form.
- Fig. 202 is a front elevation view ofthe light box wired for a 4-way lighting circuit with one
- Fig. 203 is a right-side view of Fig. 202.
- Fig. 204 is a front elevation view of Fig. 202, shown in line-schematic form.
- Fig. 205 is a front elevation view ofthe light box wired for a 4-way lighting circuit with two
- Fig. 206 is a right-side view of Fig. 205.
- Fig. 207 is a front elevation view of Fig. 205, shown in line-schematic form.
- Fig. 208 is a front elevation view ofthe light box wired for operation from another light box.
- Fig. 209 is a plan view of Fig. 208.
- Fig. 210 is a front elevation view of Fig. 208, shown in line-schematic form.
- Fig. 211 is an example electrical circuit.
- the present invention comprises a modular electrical system in which the modular components easily assemble in a manner so as to self-configure common lighting and general utility electrical circuits for residential and commercial buildings.
- the modular electrical components include the following: a wallbox 1, a receptacle module 2, a ganging module 3, a 2- way-switch module 4, a 3-way-switch module 5, a 4-way-switch module 6, a dimmer switch module 7, a fan-control switch module 8, a timer switch module 9, a GFCI-receptacle module 10, a 240-volt receptacle module 11, a junction box 12, a light box 13, a 2-wire jumper 14, a 4- wire jumper 15, a wallbox jumper 16, a 3-conductor cable 17, a 4-conductor cable 18, and a 5- conductor cable 19.
- the individual components which comprise the present invention are illustrated in Figs. 1 through 118.
- Figs. 119 through 211 illustrate the use and operation of these components.
- a wallbox 1 The two principal components ofthe wallbox 1 are the electrical box 21 and the wiring module 22.
- the wiring module 22 is comprised of a base 23; six wire adapters 25, 26, 27, 28, 29, 30; a cover 24; two spring clips 31; two rivets 32; two cable clamps 33; and four cable clamp screws 34.
- the wiring module base 23 is constructed of plastic, or otherwise a non-conductive material.
- a cable port 39, 42 is provided at the top end 37 and the bottom end 38 ofthe wiring module base 23.
- Each cable port 39, 42 is rectangular shaped and contains two center- projections 45 and two end-projections 46 to create a specific interior profile.
- the two center- projections 45 divide the cable port 39, 42 into a left half 40, 43 and a right half 41, 44.
- the wiring module base 23 provides six cavities 35 which contain and separate the six wire adapters 25, 26, 27, 28, 29, 30.
- a wire entrance hole 47 is provided at each end 36 of each wire adapter cavity 35.
- the wiring module base 23 also provides two rivet holes 48 and four threaded holes 49 to accommodate the rivets 32 and the cable clamp screws 34, respectively.
- the wire adapters 25, 26, 27, 28, 29, 30 are each of a one-piece formed construction and constructed of a copper alloy, or otherwise a conductive material.
- Each wire adapter 25, 26, 27, 28, 29, 30 provides a wire pressure-socket 67 at each end and a blade pressure-socket 70 in the center.
- the wire pressure-sockets 67 are created by two opposing tabs 68 which are formed closely together.
- the tabs 68 flex as they exert pressure on a wire that is larger than the space between the tabs 68, as the wire is inserted.
- the tabs 68 are each provided with an indentation 69 to provide maximum contact with the wire.
- the blade pressure-sockets 70 are created by a tab 71 which is formed opposing and closely together with the wire adapter sidewall 66.
- a slot 72 is provided in the wire adapters 25, 26, 27, 28, 29, 30 to permit a conductor blade to be inserted between the tab 71 and the wire adapter sidewall 66.
- the tab 71 flexes as it exerts pressure on a conductor blade that is larger than the space between the tab 71 and the wire adapter sidewall 66 as the conductor blade is inserted.
- the wiring module cover 24 is constructed of plastic, or otherwise a non-conductive material.
- the back side 51 ofthe wiring module cover 24 provides six cavities 50 which contain , , , , , . blade slots 53, 54, 55, 56, 57, 58 located in alignment with the slots 72 in the six wire adapters 25, 26, 27, 28, 29, 30.
- the wiring module cover 24 also provides two rivet holes 52 to accommodate the rivets 32.
- the two spring clips 31 are constructed of spring steel to provide a flexible nature and are provided with one rivet hole 73.
- the two cable clamps 33 may be constructed of aluminum or plastic and are provided with ridges 76 to increase the clamping effectiveness.
- the electrical box 21 may be constructed of steel or plastic.
- a cable hole 65 is provided in the top end 61 and bottom end 62 ofthe electrical box 21 and located in alignment with the cable ports 39, 42 ofthe wiring module base 23.
- Two rivet holes 63 are provided in the back wall 59 ofthe electrical box 21 to accommodate the rivets 32.
- Two mounting holes 64 are provided in each sidewall 60 ofthe electrical box 21 for mounting purposes.
- Plastic construction ofthe electrical box 21 permits the wiring module base 23 to be molded with the electrical box 21 as one piece, as shown in Fig. 6.
- the wiring module base 23 is inserted into the electrical box 21.
- the six wire adapters 25, 26, 27, 28, 29, 30 are positioned into the wire adapter cavities 35 ofthe wiring module base 23.
- the wiring module cover 24 is then placed on top ofthe wiring module base 23.
- the rivets 32 are inserted through the rivet holes 73 ofthe spring clips 31, through the rivet holes 52 ofthe wiring module cover 24, through the rivet holes 48 ofthe wiring module base 23, and through the rivet holes 63 ofthe electrical box 21 where the rivet head 74 is expanded as it draws the components tightly together and secures the wallbox 1 as one assembly.
- Two screws 34 are inserted through the mounting holes 75 of each cable clamp 33 and into the threaded holes 49 ofthe wiring module base 23.
- a receptacle module 2 The primary components ofthe receptacle module 2 are the receptacle module base 81, receptacle module cover 82, positive plug adapter 83, neutral plug adapter 84, two ground plug adapters 85, grounding plate 86, grounding bar 87, positive blade assembly 88, neutral blade assembly 89, and ground blade assembly 90.
- the receptacle module base 81 is constructed of plastic, or otherwise a non-conductive material.
- the receptacle module base 81 provides a positive plug adapter cavity 96, a neutral plug adapter cavity 97, and three blade conductor cavities 100, 101, 102.
- the upper blade conductor cavity 100 is provided with two blade slots 103
- the middle blade conductor cavity 101 is provided with two blade slots 104
- the lower blade conductor cavity 102 is provided with two blade slots 105.
- Each ofthe three blade conductor cavities 100, 101, 102 are also provided with one rivet hole 106.
- the front surface 94 ofthe receptacle module base 81 is recessed relative to the outer edges 95 to accommodate the grounding plate 86 and the receptacle module cover 82.
- the front surface 94 contains two recessed cavities 99 to the ground plug adapter 85.
- the receptacle module cover 82 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the front side 108 ofthe receptacle module cover 82 provides a wallplate mounting surface 112 which is recessed relative to the two receptacle faces 111.
- the receptacle faces 1 11 are shaped to industry standards to accommodate a standard electrical plug 136 and wallplate 134.
- Each receptacle face 111 provides a positive plug slot 114, a neutral plug slot 115, and a ground plug slot 116.
- the back side 109 ofthe receptacle module cover 82 provides a positive plug adapter cavity 117, a neutral plug adapter cavity 118, and two ground plug adapter cavities 119.
- the outer edges 110 ofthe receptacle module cover 82 are recessed on the back side 109 to accommodate the receptacle module base 81.
- the outer edges 110 are also provided with two spring-clip notches 121.
- the receptacle module cover 82 provides a threaded hole 113 to accommodate the wallplate mounting screw 135.
- the positive plug adapter 83, neutral plug adapter 84, two ground plug adapters 85, grounding bar 87, positive blade assembly 88, neutral blade assembly 89, and ground blade assembly 90 are each of a one-piece formed construction as shown in Figs. 7 through 13, and constructed of a copper alloy, or otherwise a conductive material.
- the positive blade assembly 88 provides two blade conductors 131
- the neutral blade assembly 89 provides two blade conductors 132
- the ground blade assembly 90 provides two blade conductors 133.
- the grounding plate 86 is constructed of steel and shaped to accommodate the receptacle module base 81.
- the grounding plate 86 provides two large openings 122 to avoid interference with the positive plug adapter 83 and the neutral plug adapter 84, and two holes 123 provide clearance under the ground plug adapters 85.
- Assembly ofthe receptacle module 2 is performed as follows.
- the ground blade assembly 90 is fully inserted into the middle blade-conductor cavity 101 ofthe receptacle module base 81 until the blade conductors 133 protrude through the blade slots 104.
- the grounding bar 87 is then inserted into the middle blade-conductor cavity 101 until it is fully seated against the ground blade assembly 90.
- a short rivet 92 is then inserted through the rivet hole 125 ofthe grounding bar 87, through the rivet hole 125 ofthe ground blade assembly 90, and through the rivet hole 106 ofthe receptacle module base 81 where the rivet head 128 is expanded as it draws the components tightly together.
- the positive blade assembly 88 is fully inserted into the lower blade conductor cavity 102 ofthe receptacle module base 81 until the blade conductors 131 protrude through the blade slots 105.
- the positive plug adapter 83 is then inserted into the positive plug adapter cavity 96 until it is fully seated against the positive blade assembly 88.
- a short rivet 92 is then inserted through the rivet hole 125 ofthe positive plug adapter 83, through the rivet hole 125 ofthe positive blade assembly 88, and through the rivet hole 106 ofthe receptacle module base 81 where the rivet head 128 is expanded as it draws the components tightly together.
- the neutral blade assembly 89 is fully inserted into the upper blade-conductor cavity 100 ofthe receptacle module base 81 until the blade conductors 132 protrude through the blade slots 103.
- the neutral plug adapter 84 is then inserted into the .
- short rivet 92 is then inserted through the rivet hole 125 ofthe neutral plug adapter 84, through the rivet hole 125 ofthe neutral blade assembly 89, and through the rivet hole 106 ofthe receptacle module base 81 where the rivet head 128 is expanded as it draws the components tightly together.
- Each ofthe two ground plug adapters 85 are attached to the grounding plate 86 with a small rivet 91.
- the small rivet 91 is inserted through the rivet hole 127 ofthe ground plug adapter 85 and through the rivet hole 124 ofthe grounding plate 86 where the rivet head 130 is expanded as it draws the components tightly together.
- the grounding plate 86 is then inserted into the receptacle module base 81 until it is seated against the front surface 94.
- the receptacle module cover 82 is then placed onto the receptacle module base 81 until the back side 109 is seated against the grounding plate 86 and the outer edges 110 ofthe receptacle module cover 82 are nestled in the outer edges 95 ofthe receptacle module base 81, as the positive plug adapter 83, neutral plug adapter 84, and ground plug adapters 85 are nestled in the positive plug adapter cavity 117, neutral plug adapter cavity 118, and ground plug adapter cavities 119 ofthe receptacle module cover 82, respectively.
- Each ofthe two long rivets 93 are inserted through the rivet holes 120 ofthe receptacle module cover 82, through the rivet holes 126 in the grounding plate 86, through the rivet holes 126 in the grounding bar 87, and through the rivet holes 107 in the receptacle module base 81 where the rivet head 129 is expanded as it draws the components tightly together and secures the receptacle module 2 as one assembly.
- a ganging module 3 The primary components ofthe ganging module 3 are the ganging module base 141, ganging module cover 142, grounding plate 143, grounding bar 144, positive blade assembly 145, neutral blade assembly 146, and ground blade assembly 147.
- the ganging module base 141 is constructed of plastic, or otherwise a non-conductive material.
- the ganging module base 141 provides three blade-conductor cavities 153, 154, 155.
- the upper blade-conductor cavity 153 is provided with two blade slots 156
- the middle blade- conductor cavity 154 is provided with two blade slots 157
- the lower blade-conductor cavity 155 is provided with two blade slots 158.
- Each ofthe three blade-conductor cavities 153, 154, 155 are also provided with one rivet hole 159.
- the front surface 150 ofthe ganging module base 141 is recessed relative to the outer edges 151 to accommodate the grounding plate 143 and the ganging module cover 142.
- the front surface 150 contains two recessed cavities 152 to accommodate the grounding bar 144.
- the ganging module cover 142 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the front side 161 ofthe ganging module cover 142 provides a wallplate mounting surface 164.
- the outer edges 163 ofthe ganging module cover 142 are recessed on the back side 162 to accommodate the ganging module base 141.
- the outer edges 163 are also provided with two spring-clip notches 167.
- the ganging module cover 142 provides a threaded hole 165 to accommodate the wallplate mounting screw 176.
- , , , ground blade assembly 147 are each of a one-piece formed construction as shown in Figs. 14 through 19, and constructed of a copper alloy, or otherwise a conductive material.
- the positive blade assembly 145 provides two blade conductors 172
- the neutral blade assembly 146 provides two blade conductors 173
- the ground blade assembly 147 provides two blade conductors 174.
- the grounding plate 143 is constructed of steel and shaped to accommodate the ganging module base 141.
- Assembly ofthe ganging module 3 is performed as follows.
- the ground blade assembly 147 is fully inserted into the middle blade-conductor cavity 154 ofthe ganging module base 141 until the blade conductors 174 protrude through the blade slots 157.
- the grounding bar 144 is then inserted into the middle blade-conductor cavity 154 until it is fully seated against the ground blade assembly 147.
- a short rivet 148 is then inserted through the rivet hole 168 ofthe grounding bar 144, through the rivet hole 168 ofthe ground blade assembly 147, and through the rivet hole 159 ofthe ganging module base 141 where the rivet head 170 is expanded as it draws the components tightly together.
- the positive blade assembly 145 is fully inserted into the lower blade-conductor cavity 155 ofthe ganging module base 141 until the blade conductors 172 protrude through the blade slots 158.
- a short rivet 148 is then inserted through the rivet hole 168 ofthe positive blade assembly 145, and through the rivet hole 159 ofthe ganging module base 141 where the rivet head 170 is expanded as it draws the components tightly together.
- the neutral blade assembly 146 is fully inserted into the upper blade-conductor cavity 153 ofthe ganging module base 141 until the blade conductors 173 protrude through the blade slots 156.
- a short rivet 148 is then inserted through the rivet hole 168 ofthe neutral blade assembly 146, and through the rivet hole 159 ofthe ganging module base 141 where the rivet head 170 is expanded as it draws the components tightly together.
- the grounding plate 143 is then inserted into the ganging module base 141 until it is seated against the front surface 150.
- the ganging module cover 142 is then placed onto the ganging module base 141 until the back side 162 is seated against the grounding plate 143 and the outer edges 163 ofthe ganging module cover 142 are nestled in the outer edges 151 ofthe ganging module base 141.
- Each of the two long rivets 149 are inserted through the rivet holes 166 ofthe ganging module cover 142, through the rivet holes 169 in the grounding plate 143, through the rivet holes 169 in the grounding bar 144, and through the rivet holes 160 in the ganging module base 141 where the rivet head 171 is expanded as it draws the components tightly together and secures the ganging module 3 as one assembly.
- a 2-way-switch module 4 The primary components ofthe 2-way-switch module 4 are the switch module base 181, switch module cover 182, grounding plate 183, grounding bar 184, switch-arm assembly 185, switch- contact assembly 186, ground blade conductor 187, spring retainer 188, compression spring 189, and the lever 190. , - material.
- the switch module base 181 provides two switch-arm cavities 195, 196 and two switch-contact cavities 197, 198.
- the switch module base 181 also provides three blade- conductor cavities 200, 201, 202.
- the upper blade-conductor cavity 200 is provided with one blade slot 203
- the middle blade-conductor cavity 201 is provided with one blade slot 204
- the lower blade-conductor cavity 202 is provided with one blade slot 205.
- the middle blade- conductor cavity 201 is also provided with one rivet hole 206.
- the front surface 193 ofthe switch module base 181 is recessed relative to the outer edges 194 to accommodate the switch module cover 182.
- the front surface 193 contains two recessed cavities 199 to accommodate the grounding bar 184.
- the switch module cover 182 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 210 ofthe switch module cover 182 are provided with two spring-clip notches 213 and the front side 208 is shaped to accommodate the grounding plate 183.
- the outer edges 210 ofthe switch module cover 182 are recessed on the back side 209 to accommodate the switch module base 181.
- the back side 209 ofthe switch module cover 182 provides a switch-arm cavity 211, a switch-contact cavity 212, and a lever cavity 214.
- the lever cavity 214 provides two pivot rod sockets 215 and a lever handle slot 216.
- the grounding bar 184, switch-arm assembly 185, switch-contact assembly 186, ground blade conductor 187, and spring retainer 188 are each of a one-piece formed construction as shown in Figs. 20 through 27, and constructed of a copper alloy, or otherwise a conductive material.
- the switch-arm assembly 185 provides a blade conductor 227 and a switch-arm 225.
- the switch-arm 225 provides a contact tip 226 which is constructed ofa silver alloy for longer wear life.
- the switch-contact assembly 186 provides a blade conductor 228 and a contact tip 226.
- the grounding plate 183 is constructed of steel and shaped to accommodate the switch module cover 182.
- the grounding plate 183 provides a hole 218 to accommodate the lever bezel 217 on the switch module cover 182.
- the grounding plate 183 also provides two threaded holes 219 located to conform to industry standards and accommodate a standard switch wallplate 234.
- the lever 190 is ofa one-piece molded plastic construction, or otherwise a non ⁇ conductive material.
- the lever 190 consists of a handle 220 which is attached to a pivot rod 221.
- the ends 224 ofthe pivot rod 221 are slanted to assist assembly.
- the spring actuator 223 and the switch-arm actuator 222 are attached to the pivot rod 221 opposite from the handle 220.
- Assembly ofthe 2-way-switch module 4 is performed as follows.
- the ground blade conductor 187 is fully inserted into the middle blade-conductor cavity 201 ofthe switch module base 181 until it protrudes through the blade slot 204.
- the grounding bar 184 is then inserted into the middle blade-conductor cavity 201 until it is fully seated against the ground blade conductor 187.
- the spring retainer 188 is inserted into the middle blade-conductor cavity 201 until it is seated against the grounding bar 184.
- a short rivet 191 is then inserted through the rivet hole 229 ofthe spring retainer 188, through the rivet hole 229 ofthe grounding bar 184, , the switch module base 181 where the rivet head 231 is expanded as it draws the components tightly together.
- the switch-arm assembly 185 is fully inserted into the left switch-arm cavity 195 and the lower blade-conductor cavity 202 ofthe switch module base 181 until the blade conductor 227 protrudes through the blade slot 205.
- the switch-contact assembly 186 is fully inserted into the left switch-contact cavity 197 and the upper blade-conductor cavity 200 ofthe switch module base 181 until the blade conductor 228 protrudes through the blade slot 203.
- the compression spring 189 is inserted into the spring retainer 188.
- the lever 190 is inserted into the lever cavity 214 ofthe switch module cover 182 until the pivot-rod ends 224 snap into the pivot-rod sockets 215.
- the switch module cover 182 is then placed onto the switch module base 181 until the back side 209 ofthe switch module cover 182 is seated against the front surface 193 of the switch module base 181 and the outer edges 210 of the switch module cover 182 are nestled in the outer edges 194 ofthe switch module base 181 with the spring actuator 223 ofthe lever 190 properly engaged with the compression spring 189 and the switch-arm assembly 185 and the switch-contact assembly 186 nestled in the switch-arm cavity 211 and the switch- contact cavity 212 of the switch module cover 182, respectively.
- the grounding plate 183 is then placed over the switch module cover 182.
- Each ofthe two long rivets 192 are inserted through the rivet holes 230 in the grounding plate 183, through the rivet holes 230 in the grounding bar 184, and through the rivet holes 207 in the switch module base 181 where the rivet head 232 is expanded as it draws the components tightly together and secures the 2-way- switch module 4 as one assembly.
- a 3-way-switch module 5 The primary components of the3-way-switch module 5 are the switch module base 241, switch module cover 242, grounding plate 243, grounding bar 244, switch-arm assembly 245, left switch-contact assembly 246, right switch-contact assembly 247, ground blade conductor 248, spring retainer 249, compression spring 250, and the lever 251.
- the switch module base 241 is constructed of plastic, or otherwise a non-conductive material.
- the switch module base 241 provides two switch-arm cavities 256, 257 and two switch-contact cavities 258, 259.
- the switch module base 241 also provides three blade- conductor cavities 261, 262, 263.
- the upper blade-conductor cavity 261 is provided with two blade slots 264, 265, the middle blade-conductor cavity 262 is provided with one blade slot 266, and the lower blade-conductor cavity 263 is provided with one blade slot 267.
- the middle blade-conductor cavity 262 is also provided with one rivet hole 268.
- the front surface 254 of the switch module base 241 is recessed relative to the outer edges 255 to accommodate the switch module cover 242.
- the front surface 254 contains two recessed cavities 260 to accommodate the grounding bar 244.
- the switch module cover 242 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 272 ofthe switch module cover 242 are provided with two spring-clip notches 275 and the front side 270 is shaped to accommodate the grounding plate . accommodate the switch module base 241.
- the back side 271 ofthe switch module cover 242 provides a switch-arm cavity 273, a switch-contact cavity 274, and a lever cavity 276.
- the lever cavity 276 provides two pivot rod sockets 277 and a lever handle slot 278.
- the grounding bar 244, switch-arm assembly 245, left switch-contact assembly 246, right switch-contact assembly 247, ground blade conductor 248, and spring retainer 249 are each of a one-piece formed construction as shown in Figs. 28 through 37, and constructed of a copper alloy, or otherwise a conductive material.
- the switch-arm assembly 245 is provided with a blade conductor 291 and two switch arms 288, 289.
- the two switch arms 288, 289 are each provided with a contact tip 290 which is constructed ofa silver alloy for longer wear life.
- the left switch-contact assembly 246 and the right switch-contact assembly 247 each provide a blade conductor 292, 293 and a contact tip 290.
- the grounding plate 243 is constructed of steel and shaped to accommodate the switch module cover 242.
- the grounding plate 243 provides a hole 280 to accommodate the lever bezel 279 on the switch module cover 242.
- the grounding plate 243 also provides two threaded holes 281 located to conform to industry standards and accommodate a standard switch wallplate 234.
- the lever 251 is ofa one-piece molded plastic construction, or otherwise a non ⁇ conductive material.
- the lever 251 consists of a handle 282 which is attached to a pivot rod 283.
- the ends 287 ofthe pivot rod 283 are slanted to assist assembly.
- the spring actuator 286 and the two switch-arm actuators 284, 285 are attached to the pivot rod 283 opposite from the handle 282.
- Assembly ofthe 3-way-switch module 5 is performed as follows.
- the ground blade conductor 248 is fully inserted into the middle blade-conductor cavity 262 ofthe switch module base 241 until it protrudes through the blade slot 266.
- the grounding bar 244 is then inserted into the middle blade-conductor cavity 262 until it is fully seated against the ground blade conductor 248.
- the spring retainer 249 is inserted into the middle blade conductor cavity 262 until it is seated against the grounding bar 244.
- a short rivet 252 is then inserted through the rivet hole 294 ofthe spring retainer 249, through the rivet hole 294 ofthe grounding bar 244, through the rivet hole 294 ofthe ground blade conductor 248, and through the rivet hole 268 of the switch module base 241 where the rivet head 296 is expanded as it draws the components tightly together.
- the switch-arm assembly 245 is fully inserted into the switch-arm cavities 256, 257 and the lower blade-conductor cavity 263 ofthe switch module base 241 until the blade conductor 291 protrudes through the blade slot 267.
- the left switch-contact assembly 246 is fully inserted into the left switch-contact cavity 258 and the upper blade-conductor cavity 261 ofthe switch module base 241 until the blade conductor 292 protrudes through the left blade slot 264.
- the right switch-contact assembly 247 is fully inserted into the right switch-contact cavity 259 and the upper blade-conductor cavity 261 ofthe switch module base 241 until the blade conductor 293 protrudes through the right blade slot 265.
- the compression spring 250 is inserted into the spring retainer 249.
- the lever 251 is inserted into the lever cavity 276 ofthe - - .
- switch module cover 242 is then placed onto the switch module base 241 until the back side 271 ofthe switch module cover 242 is seated against the front surface 254 ofthe switch module base 241 and the outer edges 272 ofthe switch module cover 242 are nestled in the outer edges 255 ofthe switch module base 241 with the spring actuator 286 ofthe lever 251 properly engaged with the compression spring 250 and the switch-arm assembly 245 and the switch-contact assemblies 246, 247 nestled in the switch-arm cavity 273 and the switch-contact cavity 274 ofthe switch module cover 242, respectively.
- the grounding plate 243 is then placed over the switch module cover 242.
- Each ofthe two long rivets 253 are inserted through the rivet holes 295 in the grounding plate 243, through the rivet holes 295 in the grounding bar 244, and through the rivet holes 269 in the switch module base 241 where the rivet head 297 is expanded as it draws the components tightly together and secures the 3-way-switch module 5 as one assembly.
- a 4-way-switch module 6 The primary components ofthe 4-way-switch module 6 are the switch module base 301, switch module cover 302, grounding plate 303, grounding bar 304, left switch-arm assembly 305, right switch-arm assembly 306, left switch-contact assembly 307, right switch-contact assembly 308, ground blade conductor 309, spring retainer 310, compression spring 311, and the lever 312.
- the switch module base 301 is constructed of plastic, or otherwise a non-conductive material.
- the switch module base 301 provides two switch-arm cavities 317, 318 and two switch-contact cavities 319, 320.
- the switch module base 301 also provides three blade- conductor cavities 322, 323, 324.
- the upper blade-conductor cavity 322 is provided with two blade slots 325, 326
- the middle blade-conductor cavity 323 is provided with one blade slot 327
- the lower blade-conductor cavity 324 is provided with two blade slots 328, 329.
- the three blade-conductor cavities 322, 323, 324 are each provided with one rivet hole 330.
- the front surface 315 ofthe switch module base 301 is recessed relative to the outer edges 316 to accommodate the switch module cover 302.
- the front surface 315 contains two recessed cavities 321 to accommodate the grounding bar 304.
- the switch module cover 302 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 334 ofthe switch module cover 302 are provided with two spring-clip notches 337 and the front side 332 is shaped to accommodate the grounding plate 303.
- the outer edges 334 ofthe switch module cover 302 are recessed on the back side 333 to accommodate the switch module base 301.
- the back side 333 ofthe switch module cover 302 provides a switch-arm cavity 335, a switch-contact cavity 336, and a lever cavity 338.
- the lever cavity 338 provides two pivot rod sockets 339 and a lever handle slot 340.
- the grounding bar 304, left switch-arm assembly 305, right switch-arm assembly 306, left switch-contact assembly 307, right switch-contact assembly 308, ground blade conductor 309, and spring retainer 310 are each of a one-piece formed construction as shown in Figs. 38 through 47, and constructed of a copper alloy, or otherwise a conductive material.
- the two switch arms 350, 351 are each provided with a contact tip 352 which is constructed ofa silver alloy for longer wear life.
- the left switch-contact assembly 307 and the right switch-contact assembly 308 each provide a blade conductor 355, 356 and a contact tip 352.
- the grounding plate 303 is constructed of steel and shaped to accommodate the switch module cover 302.
- the grounding plate 303 provides a hole 342 to accommodate the lever bezel 341 on the switch module cover 302.
- the grounding plate 303 also provides two threaded holes 343 located to conform to industry standards and accommodate a standard switch wallplate 234.
- the lever 312 is ofa one-piece molded plastic construction, or otherwise a non ⁇ conductive material.
- the lever 312 consists of a handle 344 which is attached to a pivot rod 345.
- the ends 349 ofthe pivot rod 345 are slanted to assist assembly.
- the spring actuator 348 and the two switch-arm actuators 346, 347 are attached to the pivot rod 345 opposite from the handle 344.
- Assembly ofthe 4-way-switch module 6 is performed as follows.
- the ground blade conductor 309 is fully inserted into the middle blade-conductor cavity 323 ofthe switch module base 301 until it protrudes through the blade slot 327.
- the grounding bar 304 is then inserted into the middle blade-conductor cavity 323 until it is fully seated against the ground blade conductor 309.
- the spring retainer 310 is inserted into the middle blade-conductor cavity 323 until it is seated against the grounding bar 304.
- a short rivet 313 is then inserted through the rivet hole 357 ofthe spring retainer 310, through the rivet hole 357 ofthe grounding bar 304, through the rivet hole 357 ofthe ground blade conductor 309, and through the rivet hole 330 of the switch module base 301 where the rivet head 359 is expanded as it draws the components tightly together.
- the left switch-contact assembly 307 is fully inserted into the left switch- contact cavity 319 and the upper blade-conductor cavity 322 ofthe switch module base 301 until the blade conductor 355 protrudes through the left blade slot 325.
- a short rivet 313 is then inserted through the rivet hole 357 ofthe left switch-contact assembly 307, and through the rivet hole 330 ofthe switch module base 301 where the rivet head 359 is expanded as it draws the components tightly together.
- the right switch-arm assembly 306 is fully inserted into the right switch-arm cavity 318 and the lower blade-conductor cavity 324 ofthe switch module base 301 until the blade conductor 354 protrudes through the right blade slot 329.
- a short rivet 313 is then inserted through the rivet hole 357 ofthe right switch-arm assembly 306, and through the rivet hole 330 ofthe switch module base 301 where the rivet head 359 is expanded as it draws the components tightly together.
- the left switch-arm assembly 305 is fully inserted into the left switch-arm cavity 317 and the lower blade-conductor cavity 324 ofthe switch module base 301 until the blade conductor 353 protrudes through the left blade slot 328.
- the right switch-contact assembly 308 is fully inserted into the right switch-contact cavity 320 and the upper blade-conductor cavity 322 ofthe switch module base 301 until the blade conductor 356 protrudes through the right blade slot 326.
- the compression spring 311 is inserted into the . cover 302 until the pivot-rod ends 349 snap into the pivot-rod sockets 339.
- the switch module cover 302 is then placed onto the switch module base 301 until the back side 333 ofthe switch module cover 302 is seated against the front surface 315 ofthe switch module base 301 and the outer edges 334 ofthe switch module cover 302 are nestled in the outer edges 316 ofthe switch module base 301 with the spring actuator 348 ofthe lever 312 properly engaged with the compression spring 311 and the switch-arm assemblies 305, 306 and the switch-contact assemblies 307, 308 nestled in the switch-arm cavity 335 and the switch-contact cavity 336 of the switch module cover 302, respectively.
- the grounding plate 303 is then placed over the switch module cover 302.
- Each ofthe two long rivets 314 are inserted through the rivet holes 358 in the grounding plate 303, through the rivet holes 358 in the grounding bar 304, and through the rivet holes 331 in the switch module base 301 where the rivet head 360 is expanded as it draws the components tightly together and secures the 4-way-switch module 6 as one assembly.
- a dimmer switch module 7 The primary components ofthe dimmer switch module 7 are the switch module base 701, switch module cover 702, grounding plate 703, grounding bar 704, source-positive blade conductor 705, return-positive blade conductor 706, ground blade conductor 707, dimmer device 708, and the control knob 709.
- the switch module base 701 is constructed of plastic, or otherwise a non-conductive material.
- the switch module base 701 provides a dimmer device cavity 715 and three blade- conductor cavities 717, 718, 719.
- the upper blade-conductor cavity 717 is provided with one blade slot 720
- the middle blade-conductor cavity 718 is provided with one blade slot 721
- the lower blade-conductor cavity 719 is provided with one blade slot 722.
- the middle blade- conductor cavity 718 is also provided with one rivet hole 723.
- the front surface 713 ofthe switch module base 701 is recessed relative to the outer edges 714 to accommodate the switch module cover 702.
- the front surface 713 contains two recessed cavities 716 to accommodate the grounding bar 704.
- the switch module cover 702 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 727 ofthe switch module cover 702 are provided with two spring-clip notches 728 and the front side 725 is shaped to accommodate the grounding plate 703.
- the outer edges 727 ofthe switch module cover 702 are recessed on the back side 726 to accommodate the switch module base 701.
- the switch module cover 702 is provided with a shaft hole 729 to accommodate the control shaft 710 ofthe dimmer device 708.
- the grounding bar 704, source-positive blade conductor 705, return-positive blade conductor 706, and ground blade conductor 707 are each of a one-piece formed construction as shown in Figs. 48 through 54, and constructed ofa copper alloy, or otherwise a conductive material.
- the grounding plate 703 provides a hole 731 to accommodate the knob bezel 730 on the switch module cover 702.
- the grounding plate 703 also provides two threaded holes 732 located to conform to industry standards and accommodate a standard switch wallplate 738.
- the dimmer device 708 is old art and therefore is not shown in detail.
- the dimmer device 708 controls the electrical current and voltage from the source-positive blade conductor 705 to the return-positive blade conductor 706.
- the dimmer device 708 is adapted with a control shaft 710 which rotates relative to the dimmer device 708. When the control shaft 710 is rotated to the extreme counter-clockwise location, the dimmer device 708 is in the "off' position and no electrical current may travel from the source-positive blade conductor 705 to the return-positive blade conductor 706.
- the dimmer device 708 When the control shaft 710 is rotated in the clockwise direction and comes off the extreme counter-clockwise location, the dimmer device 708 is in the "on" position and electrical current may travel from the source-positive blade conductor 705 to the return-positive blade conductor 706. As the control shaft 710 is further rotated in the clockwise direction, the dimmer device 708 varies the electrical voltage from the source- positive blade conductor 705 to the return-positive blade conductor 706, thereby providing a means to adjust the light intensity of light fixtures.
- a control knob 709 press-fits onto the control shaft 710.
- the control knob 709 is ofa one-piece molded plastic construction, or otherwise a non-conductive material.
- Assembly ofthe dimmer switch module 7 is performed as follows.
- the ground blade conductor 707 is fully inserted into the middle blade-conductor cavity 718 ofthe switch module base 701 until it protrudes through the blade slot 721.
- the grounding bar 704 is then inserted into the middle blade-conductor cavity 718 until it is fully seated against the ground blade conductor 707.
- a short rivet 711 is then inserted through the rivet hole 733 ofthe grounding bar 704, through the rivet hole 733 ofthe ground blade conductor 707, and through the rivet hole 723 ofthe switch module base 701 where the rivet head 735 is expanded as it draws the components tightly together.
- the source-positive blade conductor 705 and the return-positive blade conductor 706 are attached to the dimmer device 708 with short rivets 711.
- the dimmer device 708 is then inserted into the module base 701 as the source-positive blade conductor 705 is inserted into the lower blade-conductor cavity 719 ofthe switch module base 701 and the return-positive blade conductor 706 is inserted into the upper blade-conductor cavity 717.
- the dimmer device 708 is fully seated into the dimmer device cavity 715 ofthe module base 701 as the source-positive blade conductor 705 protrudes through the lower blade slot 722 and the return-positive blade conductor 706 protrudes through the upper blade slot 720.
- the switch module cover 702 is then placed onto the switch module base 701 until the back side 726 ofthe switch module cover 702 is seated against the front surface 713 ofthe switch module base 701 and the outer edges 727 ofthe switch module cover 702 are nestled in the outer edges 714 of the switch module base 701 with the control shaft 710 ofthe dimmer device 708 penetrating through the shaft hole 729 in the switch module cover 702.
- the grounding plate 703 is then . the rivet holes 734 in the grounding plate 703, through the rivet holes 734 in the grounding bar 704, and through the rivet holes 724 in the switch module base 701 where the rivet head 736 is expanded as it draws the components tightly together and secures the dimmer switch module 7 as one assembly.
- the control knob 709 is press-fitted onto the control shaft 710 ofthe dimmer device 708.
- a fan-control switch module 8 The primary components ofthe fan-control switch module 8 are the switch module base 751, switch module cover 752, grounding plate 753, grounding bar 754, source-positive blade conductor 755, return-positive blade conductor 756, ground blade conductor 757, fan-control device 758, and the control knob 759.
- the switch module base 751 is constructed of plastic, or otherwise a non-conductive material.
- the switch module base 751 provides a fan-control device cavity 765 and three blade- conductor cavities 767, 768, 769.
- the upper blade-conductor cavity 767 is provided with one blade slot 770
- the middle blade-conductor cavity 768 is provided with one blade slot 771
- the lower blade-conductor cavity 769 is provided with one blade slot 772.
- the middle blade- conductor cavity 768 is also provided with one rivet hole 773.
- the front surface 763 ofthe switch module base 751 is recessed relative to the outer edges 764 to accommodate the switch module cover 752.
- the front surface 763 contains two recessed cavities 766 to accommodate the grounding bar 754.
- the switch module cover 752 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 777 ofthe switch module cover 752 are provided with two spring-clip notches 778 and the front side 775 is shaped to accommodate the grounding plate 753.
- the outer edges 777 ofthe switch module cover 752 are recessed on the back side 776 to accommodate the switch module base 751.
- the switch module cover 752 is provided with a shaft hole 779 to accommodate the control shaft 760 ofthe fan-control device 758.
- grounding bar 754, source-positive blade conductor 755, return-positive blade conductor 756, and ground blade conductor 757 are each of a one-piece formed construction as shown in Figs. 55 through 61, and constructed of a copper alloy, or otherwise a conductive material.
- the grounding plate 753 is constructed of steel and shaped to accommodate the switch module cover 752.
- the grounding plate 753 provides a hole 781 to accommodate the knob bezel 780 on the switch module cover 752.
- the grounding plate 753 also provides two threaded holes 782 located to conform to industry standards and accommodate a standard switch wallplate 738.
- the fan-control device 758 is old art and therefore is not shown in detail.
- the fan- control device 758 controls the electrical current and voltage from the source-positive blade conductor 755 to the return-positive blade conductor 756.
- the fan-control device 758 is adapted with a control shaft 760 which rotates relative to the fan-control device 758.
- the fan-control device 758 When the control shaft 760 is rotated in the clockwise direction and comes off the extreme counter-clockwise location, the fan-control device 758 is in the "on" position and electrical current may travel from the source-positive blade conductor 755 to the return-positive blade conductor 756. As the control shaft 760 is further rotated in the clockwise direction, the fan-control device 758 varies the electrical voltage from the source-positive blade conductor 755 to the return-positive blade conductor 756, thereby providing a means to adjust the speed of electric fans.
- a control knob 759 press- fits onto the control shaft 760.
- the control knob 759 is of a one-piece molded plastic construction, or otherwise a non-conductive material.
- Assembly ofthe fan-control switch module 8 is performed as follows.
- the ground blade conductor 757 is fully inserted into the middle blade-conductor cavity 768 ofthe switch module base 751 until it protrudes through the blade slot 771.
- the grounding bar 754 is then inserted into the middle blade-conductor cavity 768 until it is fully seated against the ground blade conductor 757.
- a short rivet 761 is then inserted through the rivet hole 783 ofthe grounding bar 754, through the rivet hole 783 ofthe ground blade conductor 757, and through the rivet hole 773 ofthe switch module base 751 where the rivet head 785 is expanded as it draws the components tightly together.
- the source-positive blade conductor 755 and the return-positive blade conductor 756 are attached to the fan-control device 758 with short rivets 761.
- the fan- control device 758 is then inserted into the module base 751 as the source-positive blade conductor 755 is inserted into the lower blade-conductor cavity 769 ofthe switch module base 751 and the return-positive blade conductor 756 is inserted into the upper blade-conductor cavity 767.
- the fan-control device 758 is fully seated into the fan-control device cavity 765 of the module base 751 as the source-positive blade conductor 755 protrudes through the lower blade slot 772 and the return-positive blade conductor 756 protrudes through the upper blade slot 770.
- the switch module cover 752 is then placed onto the switch module base 751 until the back side 776 ofthe switch module cover 752 is seated against the front surface 763 ofthe switch module base 751 and the outer edges 777 ofthe switch module cover 752 are nestled in the outer edges 764 ofthe switch module base 751 with the control shaft 760 ofthe fan-control device 758 penetrating through the shaft hole 779 in the switch module cover 752.
- the grounding plate 753 is then placed over the switch module cover 752.
- Each ofthe two long rivets 762 are inserted through the rivet holes 784 in the grounding plate 753, through the rivet holes 784 in the grounding bar 754, and through the rivet holes 774 in the switch module base 751 where the rivet head 786 is expanded as it draws the components tightly together and secures the fan-control switch module 8 as one assembly.
- the control knob 759 is press-fitted onto the control shaft 760 ofthe fan-control device 758.
- timer switch module 9 The primary components ofthe timer switch module 9 are the switch module base 801, switch module cover , , - v a e u or , r - positive blade conductor 806, ground blade conductor 807, timer device 808, and the control knob 809.
- the switch module base 801 is constructed of plastic, or otherwise a non-conductive material.
- the switch module base 801 provides a timer device cavity 815 and three blade- conductor cavities 817, 818, 819.
- the upper blade-conductor cavity 817 is provided with one blade slot 820
- the middle blade-conductor cavity 818 is provided with one blade slot 821
- the lower blade-conductor cavity 819 is provided with one blade slot 822.
- the middle blade- conductor cavity 818 is also provided with one rivet hole 823.
- the front surface 813 ofthe switch module base 801 is recessed relative to the outer edges 814 to accommodate the switch module cover 802.
- the front surface 813 contains two recessed cavities 816 to accommodate the grounding bar 804.
- the switch module cover 802 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the outer edges 827 ofthe switch module cover 802 are provided with two spring-clip notches 828 and the front side 825 is shaped to accommodate the grounding plate
- the outer edges 827 ofthe switch module cover 802 are recessed on the back side 826 to accommodate the switch module base 801.
- the switch module cover 802 is provided with a shaft hole 829 to accommodate the control shaft 810 ofthe timer device 808.
- the grounding bar 804, source-positive blade conductor 805, return-positive blade conductor 806, and ground blade conductor 807 are each of a one-piece formed construction as shown in Figs. 62 through 68, and constructed of a copper alloy, or otherwise a conductive material.
- the grounding plate 803 is constructed of steel and shaped to accommodate the switch module cover 802.
- the grounding plate 803 provides a hole 831 to accommodate the knob bezel 830 on the switch module cover 802.
- the grounding plate 803 also provides two threaded holes 832 located to conform to industry standards and accommodate a standard switch wallplate 738.
- the timer device 808 is old art and therefore is not shown in detail.
- the timer device 808 controls the electrical current from the source-positive blade conductor 805 to the return- positive blade conductor 806.
- the timer device 808 is adapted with a control shaft 810 which rotates relative to the timer device 808. When the control shaft 810 is rotated to the extreme counter-clockwise location, the timer device 808 is in the "off position and no electrical current may travel from the source-positive blade conductor 805 to the return-positive blade conductor 806.
- the timer device 808 When the control shaft 810 is rotated in the clockwise direction and comes off the extreme counter-clockwise location, the timer device 808 is in the "on” position and electrical current may travel from the source-positive blade conductor 805 to the return-positive blade conductor 806. The time duration that the timer device 808 will remain “on” is dependent on how far the control shaft 810 is rotated in the clockwise direction.
- the time duration increases that the timer device 808 will allow the electrical current to travel from the source-positive blade conductor 805 to the re urn-pos ve a e con uc or , ere y prov ng a means o a us e me or e ec ca appliances to turn off automatically.
- the control shaft 810 is rotated clockwise manually and returns to the extreme counter-clockwise location automatically by the timer device 808 as the time duration expires.
- a control knob 809 press-fits onto the control shaft 810.
- the control knob 809 is ofa one-piece molded plastic construction, or otherwise a non-conductive material.
- the ground blade conductor 807 is fully inserted into the middle blade-conductor cavity 818 ofthe switch module base 801 until it protrudes through the blade slot 821.
- the grounding bar 804 is then inserted into the middle blade-conductor cavity 818 until it is fully seated against the ground blade conductor 807.
- a short rivet 811 is then inserted through the rivet hole 833 ofthe grounding bar 804, through the rivet hole 833 ofthe ground blade conductor 807, and through the rivet hole 823 ofthe switch module base 801 where the rivet head 835 is expanded as it draws the components tightly together.
- the source-positive blade conductor 805 and the return-positive blade conductor 806 are attached to the timer device 808 with short rivets 811.
- the timer device 808 is then inserted into the module base 801 as the source-positive blade conductor 805 is inserted into the lower blade-conductor cavity 819 ofthe switch module base 801 and the return-positive blade conductor 806 is inserted into the upper blade-conductor cavity 817.
- the timer device 808 is fully seated into the timer device cavity 815 ofthe module base 801 as the source-positive blade conductor 805 protrudes through the lower blade slot 822 and the return- positive blade conductor 806 protrudes through the upper blade slot 820.
- the switch module cover 802 is then placed onto the switch module base 801 until the back side 826 ofthe switch module cover 802 is seated against the front surface 813 ofthe switch module base 801 and the outer edges 827 ofthe switch module cover 802 are nestled in the outer edges 814 ofthe switch module base 801 with the control shaft 810 of the timer device 808 penetrating through the shaft hole 829 in the switch module cover 802.
- the grounding plate 803 is then placed over the switch module cover 802.
- Each ofthe two long rivets 812 are inserted through the rivet holes 834 in the grounding plate 803, through the rivet holes 834 in the grounding bar 804, and through the rivet holes 824 in the switch module base 801 where the rivet head 836 is expanded as it draws the components tightly together and secures the timer switch module 9 as one assembly.
- the control knob 809 is press-fitted onto the control shaft 810 ofthe timer device 808.
- a GFCI receptacle module 10 The primary components ofthe GFCI receptacle module 10 are the receptacle module base 851, receptacle module cover 852, positive plug adapter 853, neutral plug adapter 854, two ground plug adapters 855, grounding plate 856, grounding bar 857, source-positive blade conductor 858, source-neutral blade conductor 859, GFCI-positive blade conductor 860, GFCI-neutral blade conductor 861, the ground blade assembly 863, GFCI device 864, the Test pushbutton 865, and the Reset pushbutton 867.
- the front surface 872 ofthe receptacle module base 851 is recessed relative to the outer edges 873 to accommodate the grounding plate 856 and the receptacle module cover 852.
- the front surface 872 contains two recessed cavities 877 to accommodate the grounding bar 857 and one ground plug cavity 876 to provide clearance under the ground plug adapter 855.
- the receptacle module cover 852 is also constructed of plastic, or otherwise a non ⁇ conductive material.
- the front side 887 ofthe receptacle module cover 852 provides a wallplate mounting surface 891 which is recessed relative to the GFCI-receptacle face 890.
- the GFCI- receptacle face 890 is shaped to industry standards to accommodate a standard electrical plug 918 and GFCI-wallplate 916.
- the GFCI-receptacle face 890 provides positive plug slots 893, neutral plug slots 894, and ground plug slots 895.
- the back side 888 ofthe receptacle module cover 852 provides a positive plug adapter cavity 896, a neutral plug adapter cavity 897, and two ground plug adapter cavities 898.
- the outer edges 889 ofthe receptacle module cover 852 are recessed on the back side 888 to accommodate the receptacle module base 851.
- the outer edges 889 are also provided with two spring-clip notches 903.
- the receptacle module cover 852 provides two threaded holes 892 to accommodate the wallplate mounting screws 917.
- the positive plug adapter 853, neutral plug adapter 854, two ground plug adapters 855, grounding bar 857, blade conductors 858, 859, 860, 861, and ground blade assembly 863 are each of a one-piece formed construction as shown in Figs. 69 through 75, and constructed of a copper alloy, or otherwise a conductive material.
- the ground blade assembly 863 provides two ground blade conductors 862.
- the grounding plate 856 is constructed of steel and shaped to accommodate the receptacle module base 851.
- the grounding plate 856 provides two large openings 904 to avoid interference with the positive plug adapter 853 and the neutral plug adapter 854, and two holes 905 provide clearance under the ground plug adapters 855.
- the ground fault circuit interrupt (GFCI) device 864 is old art and therefore is not shown in detail.
- the GFCI device 864 is a safety device which monitors the electrical current through the positive conductors relative to the electrical current through the neutral conductors to detect a leakage current to ground or "ground fault condition", indicating stray electrical current and possible electrocution of a person. Upon detection of a ground fault condition, the GFCI device 864 trips, thereby interrupting the electrical current.
- the GFCI device 864 is adapted with a "Test" pushbutton shaft 866 which permits the GFCI device 864 to be tested by simulating a ground fault condition, and a "Reset” pushbutton shaft 868 which resets the GFCI device 864 after it has been tripped.
- the "Test" pushbutton 865 and “Reset” pushbutton 867 are ofa one-piece plastic construction and are adapted to press-fit onto the pushbutton shafts 866, 868.
- Assembly ofthe GFCI-receptacle module 10 is performed as follows.
- the ground blade assembly 863 is fully inserted into the middle blade-conductor cavity 880 ofthe receptacle module base 851 until the blade conductors 862 protrude through the blade slots 883.
- the grounding bar 857 is then inserted into the middle blade-conductor cavity 880 until it is fully receptacle module base 851.
- a short rivet 870 is then inserted through the rivet hole 908 ofthe grounding bar 857, through the rivet hole 908 ofthe ground blade assembly 863, and through the rivet hole 885 ofthe receptacle module base 851 where the rivet head 911 is expanded as it draws the components tightly together.
- the source-positive blade conductor 858, source-neutral blade conductor 859, the GFCI-positive blade conductor 860, and the GFCI-neutral blade conductor 861 are secured to the GFCI device 864 with short rivets 870.
- the GFCI device 864 is then inserted into the receptacle module base 851 such that the source-neutral blade conductor 859 and the GFCI-neutral blade conductor 861 are inserted into the upper blade conductor cavity 879 and the source-positive blade conductor 858 and the GFCI-positive blade conductor 860 are inserted into the lower blade conductor cavity 881.
- the GFCI device 864 is fully seated into the GFCI device cavity 878 ofthe receptacle module base 851 as the source- neutral blade conductor 859 and the GFCI-neutral blade conductor 861 protrude through the upper blade slots 882 and the source-positive blade conductor 858 and the GFCI-positive blade conductor 860 protrude through the lower blade slots 884.
- the positive plug adapter 853 is then inserted into the positive plug adapter cavity 874 until it is fully seated against the GFCI device 864.
- a short rivet 870 is then inserted through the rivet hole 908 ofthe positive plug adapter
- the neutral plug adapter 853 secures the positive plug adapter 853 to the GFCI device 864.
- the neutral plug adapter 853 secures the positive plug adapter 853 to the GFCI device 864.
- the ground plug adapter 854 is then inserted into the neutral plug adapter cavity 875 until it is fully seated against the GFCI device 864.
- a short rivet 870 is then inserted through the rivet hole 908 ofthe neutral plug adapter 854 and secures the neutral plug adapter 854 to the GFCI device 864.
- Each ofthe two ground plug adapters 855 are attached to the grounding plate 856 with a small rivet 869.
- the small rivet 869 is inserted through the rivet hole 910 ofthe ground plug adapter 855 and through the rivet hole 907 ofthe grounding plate 856 where the rivet head 913 is expanded as it draws the components tightly together.
- the grounding plate 856 is then inserted into the receptacle module base 851 until it is seated against the front surface 872 as the pushbutton shafts 866, 868 ofthe GFCI device 864 protrude through the shaft clearance holes 906 ofthe grounding plate 856.
- the receptacle module cover 852 is then placed onto the receptacle module base 851 until the back side 888 is seated against the grounding plate 856 and the outer edges 889 ofthe receptacle module cover 852 are nestled in the outer edges 873 ofthe receptacle module base 851.
- the pushbutton shafts 866, 868 ofthe GFCI device 864 protrude through the shaft clearance holes 901 ofthe receptacle module cover 852 and the positive plug adapter 853, neutral plug adapter 854, and ground plug adapters 855 are nestled in the positive plug adapter cavity 896, neutral plug adapter cavity 897, and ground plug adapter cavities 898, respectively.
- Each ofthe two long rivets 871 are inserted through the rivet holes 902 ofthe receptacle module cover 852, through the rivet holes 909 in the grounding plate 856, through the rivet holes 909 in the grounding bar 857, and through the rivet holes 886 in the receptacle module base 851 where the rivet head 912 is expanded as it draws the components tightly together and secures the GFCI receptacle module 10 as one assembly.
- the "Test" pushbutton 865 is inserted into the "Test" pushbutton cavity 899 and press-fitted onto the "Test” pushbutton . , 900 and press-fitted onto the "Reset” pushbutton shaft 868.
- a 240 volt receptacle module 11 The primary components ofthe 240 volt receptacle module 11 are the module base 931, module cover 932, left positive plug adapter 933, right positive plug adapter 934, neutral plug adapter
- grounding plate 940 grounding bar 941
- ground blade conductor 939 ground blade conductor
- the module base 931 is constructed of plastic, or otherwise a non-conductive material.
- the module base 931 provides three blade conductor cavities 947, 948, 949.
- the upper blade conductor cavity 947 is provided with two blade slots 950, 951; the middle blade conductor cavity 948 is provided with one blade slot 952; and the lower blade conductor cavity 949 is provided with one blade slot 953.
- the middle blade conductor cavity 948 is provided with one rivet hole 954.
- the front surface 944 ofthe module base 931 is recessed relative to the outer edges 945 to accommodate the grounding plate 940 and the module cover 932.
- the front surface 944 contains two recessed cavities 946 to accommodate the grounding bar 941.
- the module cover 932 is also constructed of plastic, or otherwise a non-conductive material.
- the front side 956 ofthe module cover 932 provides a wallplate mounting surface 960 which is recessed relative to the receptacle face 959.
- the receptacle face 959 provides a left positive plug slot 962, a right positive plug slot 963, and a neutral plug slot 964.
- the plug slots 962, 963, 964 are located to accommodate a standard 240 volt plug.
- Various standard 240 volt plugs are available and the arrangement ofthe plug slots 962, 963, 964 is selected for the purposes of this disclosure and it is not intended to imply that the present invention is restricted to this arrangement.
- the back side 957 ofthe module cover 932 provides two positive plug adapter cavities 965 and a neutral plug adapter cavity 966.
- the outer edges 958 ofthe module cover 932 are recessed on the back side 957 to accommodate the receptacle module base 931.
- the outer edges 958 are also provided with two spring-clip notches 968.
- the module cover 932 provides two threaded holes 961 to accommodate the wallplate mounting screws 976.
- the positive plug adapters 933, 934, neutral plug adapter 935, grounding bar 941, and ground blade conductor 939 are each of a one-piece formed construction as shown in Figs. 76 through 82, and constructed of a copper alloy, or otherwise a conductive material.
- the positive plug adapters 933, 934 and neutral plug adapter 935 are each provided with a blade conductor
- the grounding plate 940 is constructed of steel and shaped to accommodate the receptacle module base 931.
- the grounding plate 940 provides one large opening 969 to avoid interference with the plug adapters 933, 934, 935.
- Assembly ofthe 240 volt receptacle module 11 is performed as follows.
- the ground blade conductor 939 is fully inserted into the middle blade-conductor cavity 948 ofthe module base 931 until it protrudes through the blade slot 952.
- the grounding bar 941 is then inserted into the middle blade-conductor cavity 948 until it is fully seated against the ground blade conductor 939.
- a short rivet 942 is then inserted through the rivet hole 970 ofthe grounding bar , , 954 ofthe module base 931 where the rivet head 972 is expanded as it draws the components tightly together.
- the left positive plug adapter 933 is fully inserted into the upper blade- conductor cavity 947 ofthe module base 931 as the blade conductor 936 protrudes through the left blade slot 950.
- the right positive plug adapter 934 is fully inserted into the upper blade-conductor cavity 947 as the blade conductor 937 protrudes through the right blade slot 951.
- the neutral plug adapter 935 is then inserted into the lower blade-conductor cavity 949 as the blade conductor 938 protrudes through the blade slot 953.
- the grounding plate 940 is then inserted into the module base 931 until it is seated against the front surface 944.
- the module cover 932 is then placed onto the module base 931 until the back side 957 is seated against the grounding plate 940 and the outer edges 958 ofthe module cover 932 are nestled in the outer edges 945 ofthe module base 931, as the positive plug adapters 933, 934 and the neutral plug adapter 935 are nestled in the positive plug adapter cavities 965 and the neutral plug adapter cavity 966 ofthe module cover 932, respectively.
- Each ofthe two long rivets 943 are inserted through the rivet holes 967 ofthe module cover 932, through the rivet holes 973 in the grounding plate 940, through the rivet holes 973 in the grounding bar 941, and through the rivet holes 955 in the module base 931 where the rivet head 973 is expanded as it draws the components tightly together and secures the 240 volt receptacle module 11 as one assembly.
- junction box 12 The two principal components of the junction box 12 are the electrical box 361 and the wiring module 362.
- the wiring module 362 is comprised of a base 363, cover 364, positive wire adapter 365, neutral wire adapter 366, ground wire adapter 367, three terminal screws 371, rivet 368, four cable clamps 369, and four cable clamp screws 370.
- the wiring module base 363 is constructed of plastic, or otherwise a non-conductive material.
- Two 3-conductor cable ports 383 are provided in the four sides 379 ofthe wiring module base 363.
- Each 3 -conductor cable port 383 is rectangular shaped and contains two end- projections 384 to create a specific interior profile.
- the wiring module base 363 provides one center cavity 372 to accommodate the positive wire adapter 365 and the neutral wire adapter 366.
- Twenty four socket cavities 374, 375, 376 are located around the perimeter ofthe center cavity 372.
- a wire entrance hole 378 is provided at the end 377 of each socket cavity 374, 375, 376.
- the wiring module base 363 provides one rivet hole 380, two mounting holes 382, and four threaded holes 381.
- the wire adapters 365, 366, 367 are each of a one-piece formed construction and constructed of a copper alloy, or otherwise a conductive material.
- the positive wire adapter 365 provides eight wire pressure-sockets 400 attached to the positive wire adapter base 401 and located in alignment with the positive socket cavities 374 in the wiring module base 363.
- a terminal tab 406 is also attached to the positive wire adapter base 401 which provides a threaded hole 407.
- the neutral wire adapter 366 provides eight wire pressure-sockets 402 attached to the neutral wire adapter base 403 and located in alignment with the neutral socket . s a e o wire adapter base 403 which provides a threaded hole 409.
- the ground wire adapter 367 provides eight wire pressure-sockets 404 attached to the ground wire adapter base 405 and located in alignment with the ground socket cavities 376 in the wiring module base 363.
- a terminal tab 410 is also attached to the ground wire adapter base 405 which provides a threaded hole 411 and a rivet hole 412.
- The. wire-pressure-sockets 400, 402, 403 are created by two opposing tabs 413 which are formed closely together and flexible such that the tabs 413 exert pressure on a wire that is larger than the space between the tabs 413, as the wire is inserted.
- the tabs 413 are each provided with an indentation 414 to provide maximum contact with the wire.
- the wiring module cover 364 is constructed of plastic, or otherwise a non-conductive material.
- the back side 387 ofthe wiring module cover 364 provides twenty-four socket cavities 386 located around the perimeter ofa center cavity 385.
- the wiring module cover 364 also provides one rivet hole 388, eight ground socket holes 389, two terminal clearance holes 390, and a screw clearance hole 391.
- the four cable clamps 369 may be constructed of aluminum or plastic and are provided with ridges 417 to increase the clamping effectiveness.
- the cable clamps 369 are also provided with one mounting hole 416.
- the electrical box 361 may be constructed of steel or plastic.
- Two cable holes 397 are provided in each ofthe four sidewalls 393 ofthe electrical box 361.
- the cable holes 397 are located in alignment with the 3-conductor cable ports 383 ofthe wiring module base 363.
- a rivet hole 395 is provided in the back wall 392 ofthe electrical box 361 to accommodate the rivet 368.
- Two mounting holes 396 are also provided in the back wall 392 for mounting purposes.
- Two fixture mounting tabs 398 are provided at the outer edges 394 ofthe electrical box 361.
- Each ofthe two fixture mounting tabs 398 are provided with a threaded hole 399 which are located to industry standards to accommodate standard fixtures and cover plates.
- Plastic construction ofthe electrical box 361 permits the wiring module base 363 to be molded with the electrical box 361 as one piece, as shown in Fig. 91.
- the wiring module base 363 is inserted into the electrical box 361.
- the neutral wire adapter 366 is fully inserted into the center cavity 372 ofthe wiring module base 363 such that the neutral wire pressure-sockets 402 are inserted into the neutral socket cavities 375 and the neutral wire adapter base 4403 is at the bottom 373 ofthe center cavity 372.
- the positive wire adapter 365 is fully inserted into the center cavity 372 ofthe wiring module base 363 such that the positive wire pressure-sockets 400 are inserted into the positive socket cavities 374 and the positive wire adapter base 401 is at the top ofthe wiring module base 363.
- the wiring module cover 364 is then placed on top of the wiring module base 363.
- the ground wire adapter 367 is inserted into the wiring module cover 364 such that the ground wire pressure-sockets 404 penetrate through the ground socket holes 389 and into the ground socket cavities 376 ofthe wiring module base 363.
- the rivet 368 is inserted through the rivet hole 412 ofthe ground wire adapter 367, through the rivet hole 388 ofthe wiring module cover 364, through the rivet hole 380 ofthe wiring module base 363, and through the rivet hole 395 ofthe electrical box 361 where the rivet head 415 is expanded as it raws e componen s g y oge er an secures e unc on ox as one assem y.
- terminal screw 371 is inserted into each ofthe threaded holes 407, 409, 411 ofthe wire adapters 365, 366, 367.
- One ofthe four screws 370 is inserted through the mounting hole 416 of each cable clamp 369 and into the threaded holes 381 ofthe wiring module base 363.
- the two principal components ofthe light box 13 are the electrical box 421 and the wiring module 422.
- the wiring module 422 is comprised of a base 423, cover 424, ten wire adapters 425, 426, 427, 428, 429, 430, 431, 432, 433, 434, four terminal screws 438, rivet 435, four cable clamps 436, and four cable clamp screws 437.
- the wiring module base 423 is constructed of plastic, or otherwise a non-conductive material.
- the top side 459 and bottom side 460 ofthe wiring module base 423 are each provided with one 3-conductor cable port 468, 469 and one 4-conductor cable port 470, 471.
- the right side 462 ofthe wiring module base 423 is provided with two 5-conductor cable ports 472, 473.
- the left side 461 ofthe wiring module base 423 is provided with two 3-conductor cable ports 466, 467.
- Each 3-conductor cable port 466, 467, 468, 469 is rectangular shaped with end-projections 474 to create a specific interior profile.
- Each 4-conductor cable port 470, 471 and 5-conductor cable port 472, 473 is rectangular shaped with center-projections 475 to create a specific interior profile.
- the wiring module base 423 provides one center cavity 439 to accommodate the wire adapters 425, 426, 428- 434. Thirty socket cavities 441-456 are located around the perimeter ofthe center cavity 439. A wire entrance hole 458 is provided at the end 457 of each socket cavity 441-456.
- the wiring module base 423 provides one rivet hole 463, two mounting holes 465, and four threaded holes 464.
- the ten wire adapters 425-434 are each ofa one-piece formed construction and constructed of a copper alloy, or otherwise a conductive material.
- the positive wire adapter 425 provides three wire pressure-sockets 501 attached to the positive wire adapter base 502 and located in alignment with the positive socket cavities 441 in the wiring module base 423.
- a terminal tab 521 is also attached to the positive wire adapter base 502 which provides a threaded hole 522.
- the neutral wire adapter 426 provides four wire pressure-sockets 503 attached to the neutral wire adapter base 504 and located in alignment with the neutral socket cavities 442 in the wiring module base 423.
- a terminal tab 523 is also attached to the neutral wire adapter base 504 which provides a threaded hole 524.
- the ground wire adapter 427 provides eight wire pressure-sockets 505 attached to the ground wire adapter base 506 and located in alignment with the ground socket cavities 443 in the wiring module base 423.
- a terminal tab 525 is also attached to the ground wire adapter base 506 which provides a threaded hole 526 and a rivet hole 529.
- the light wire adapter 428 provides three wire pressure-sockets 507 attached to the light wire adapter base 508 and located in alignment with the light socket cavities 444 in the wiring module base 423.
- a terminal tab 527 is also attached to the light wire adapter base 508 which provides a threaded hole 528.
- Switch wire adapter-AD 429 provides two wire pressure-sockets 509, 512 located such that wire pressure-socket-A 509 and wire - - - - wiring module base 423, respectively.
- Switch wire adapter-BC 450 provides two wire pressure- sockets 510, 511 located such that wire pressure-socket-B 510 and wire pressure-socket-C 511 are in alignment with socket cavity-B 446 and socket cavity-C 447 in the wiring module base 423, respectively.
- Switch wire adapter-EH 431 provides two wire pressure-sockets 513, 516 located such that wire pressure-socket-E 513 and wire pressure-socket-H 516 are in alignment with socket cavity-E 449 and socket cavity-H 452 in the wiring module base 423, respectively.
- Switch wire adapter-FG 432 provides two wire pressure-sockets 514, 515 located such that wire pressure-socket-F 514 and wire pressure-socket-G 515 are in alignment with socket cavity-F 450 and socket cavity-G 451 in the wiring module base 423, respectively.
- Switch wire adapter- JM 433 provides two wire pressure-sockets 517, 520 located such that wire pressure-socket-J 517 and wire pressure-socket-M 520 are in alignment with socket cavity-J 453 and socket cavity-M 456 in the wiring module base 423, respectively.
- Switch wire adapter-KL 434 provides two wire pressure-sockets 518, 519 located such that wire pressure-socket-K 518 and wire pressure-socket-L 519 are in alignment with socket cavity-K 454 and socket cavity-L 455 in the wiring module base 423, respectively.
- the wire pressure-sockets 501, 503, 505, 507, 509- 520 are created by two opposing tabs 530 which are formed closely together and flexible such that the tabs 530 exert pressure on a wire that is larger than the space between the tabs 530, as the wire is inserted.
- the tabs 530 are each provided with an indentation 531 to provide maximum contact with the wire.
- the wiring module cover 424 is constructed of plastic, or otherwise a non-conductive material.
- the back side 478 ofthe wiring module cover 424 provides thirty socket cavities 477 located around the perimeter ofa center cavity 476.
- the wiring module cover 424 also provides one rivet hole 479, eight ground socket holes 480, three terminal tab clearance holes 481, and a screw clearance hole 482.
- the four cable clamps 436 may be constructed of aluminum or plastic and are provided with ridges 534 to increase the clamping effectiveness.
- the cable clamps 436 are also provided with one mounting hole 533.
- the electrical box 421 may be constructed of steel or plastic.
- the top side 484 and bottom side 485 ofthe electrical box 421 are each provided with one 3-conductor cable hole 491 and one 4-conductor cable hole 492.
- the right side 487 ofthe electrical box 421 is provided with two 5-conductor cable holes 493.
- the left side 486 ofthe electrical box 421 is provided with two 3-conductor cable holes 491.
- the cable holes 491, 492, 493 are located in alignment with the cable ports 466-473 ofthe wiring module base 423.
- a rivet hole 489 is provided in the back wall 483 ofthe electrical box 421 to accommodate the rivet 435.
- Two mounting holes 490 are also provided in the back wall 483 for mounting purposes.
- Two fixture mounting tabs 494 are provided at the outer edge 488 ofthe electrical box 421. Each ofthe two fixture mounting tabs 494 are provided with a threaded hole 495 which are located to industry standards to accommodate standard fixtures and cover plates.
- Plastic construction ofthe electrical box 421 permits the wiring module base 423 to be molded with the electrical box 421 as one piece, as shown in Fig. 104. ssem y o t e g t ox s eas y seen n gs. an . e w r ng mo u e ase 423 is inserted into the electrical box 421.
- the neutral wire adapter 426 is fully inserted into the center cavity 439 ofthe wiring module base 423 such that the neutral wire pressure-sockets 503 are inserted into the neutral socket cavities 442 and the neutral wire adapter base 504 is at the bottom 440 ofthe center cavity 439.
- the light wire adapter 428 is fully inserted into the center cavity 439 ofthe wiring module base 423 such that the light wire pressure-sockets 507 are inserted into the light socket cavities 444 and the light wire adapter base 508 is at the bottom 440 ofthe center cavity 439.
- the switch wire adapters 429-434 are fully inserted into the center cavity 439 ofthe wiring module base 423 such that the wire pressure-sockets 509-520, are inserted into their respective socket cavities 445-456.
- the positive wire adapter 425 is fully inserted into the center cavity 439 ofthe wiring module base 423 such that the positive wire pressure-sockets 501 are inserted into the positive socket cavities 441 and the positive wire adapter base 502 is at the front ofthe wiring module base 423.
- the wiring module cover 424 is then placed onto the wiring module base 423.
- the ground wire adapter 427 is inserted into the wiring module cover 424 such that the ground wire pressure-sockets 505 penetrate through the ground socket holes 480 and into the ground socket cavities 443 ofthe wiring module base 423.
- the rivet 435 is inserted through the rivet hole 529 ofthe ground wire adapter 427, through the rivet hole 479 ofthe wiring module cover 424, through the rivet hole 463 ofthe wiring module base 423, and through the rivet hole 489 ofthe electrical box 421 where the rivet head 532 is expanded as it draws the components tightly together and secures the light box 13 as one assembly.
- a terminal screw 438 is inserted into each ofthe threaded holes 522, 524, 526, 528 of the wire adapters 425, 426, 427, 428.
- One ofthe four screws 437 is inserted through the screw hole 533 of each cable clamp 436 and into the threaded holes 464 ofthe wiring module base 423.
- a 2-wire jumper 14 there is provided a 2-wire jumper 14.
- the handle 541 is constructed of plastic, or otherwise a non-conductive material.
- Jumper-NP 544 is constructed of copper wire and formed as shown in Fig. 105 to provide exterior wire-N 542 and exterior wire-P 543.
- the jumper-NP 544 is molded into the handle 541.
- the handle 541 is provided with two center-projection grooves 545 to create a specific exterior profile.
- the specific exterior profile and the location ofthe exterior wires 542, 543 provides a slip-fit with the 4-conductor cable ports 470, 471 in the wiring module base 423 ofthe light box 13, as seen in Fig. 196.
- the handle 551 is constructed of plastic, or otherwise a non-conductive material.
- Jumper-RU 556 and jumper-ST 557 are constructed of copper wire.
- Jumper-RU 556 is formed as shown in Fig. 107 to provide exterior wire-R 552 and exterior wire-U 555.
- Jumper-ST 557 is formed as shown in Fig. 107 to provide exterior wire-S 553 and exterior wire-T 554.
- Jumper-RU 556 and jumper-ST 557 are molded into the handle 551.
- the handle 551 is provided with two center-projection grooves 558 to create a specific exterior profile.
- the specific exterior profile and the location ofthe exterior wires 552, 553, 554, 555 provides a slip-fit with the 5-conductor cable ports 472, 473 in the wiring module base 423 ofthe light box 13, as seen in Fig. 194.
- a wallbox jumper 16 there is provided a wallbox jumper 16.
- the handle 561 is constructed of plastic, or otherwise a non-conductive material.
- Jumper-GK 568, jumper- HL 569, and jumper- JM 570 are constructed of copper wire.
- Jumper-GK 568 is formed as shown in Figs. 109 and 110 to provide exterior wire-G 562 and exterior wire-K 565.
- Jumper-HL 569 is formed as shown in Figs. 109 and 110 to provide exterior wire-H 563 and exterior wire-L 566.
- Jumper- JM 570 is formed as shown in Figs. 109 and 110 to provide exterior wire-J 564 and exterior wire-M 567.
- Jumper-GK 568, jumper-HL 569, and jumper- JM 570 are molded into the handle 561.
- the handle top 571 provides jumper-GK 568 bent toward the handle front-side 573 and jumper- JM 570 bent toward the handle back-side 572 to avoid jumper-HL 569.
- the handle 561 is provided with two extensions 574, 575. Each handle extension 574, 575 is provided with two end-projection chamfers 576 to create a specific exterior profile.
- the specific exterior profile ofthe left handle extension 574 and the location ofthe exterior wires 562, 563, 564 provide for a slip-fit into the right half 41 ofthe top cable port 39 in the wiring module base 23 ofthe wallbox 1, as seen in Fig. 132.
- the specific exterior profile ofthe right handle extension 575 and the location ofthe exterior wires 565, 566, 567 provide for a slip-fit into the left half 40 ofthe top cable port 39 in the wiring module base 23 ofthe wallbox 1, as seen in Fig. 132.
- the cable sheath 581 is constructed of polyurethane, or otherwise a durable elastomer.
- the 3-conductor cable 17 contains two insulated wire conductors 582, 583 and one ground wire conductor 584.
- the insulated wire conductors 582, 583 are each provided with an individual wire insulation sheath 585 for additional protection.
- the cable sheath 581 is extruded with two end-projection chamfers 586 to provide a specific exterior profile.
- the wire conductors 582, 583, 584 are located in the cable sheath 581 relative to the specific exterior profile such that the 3-conductor cable 17 provides a slip-fit with the 3-conductor cable ports 466-469 in the wiring module base 423 ofthe light box 13, as seen in Figs. 193 and 195; also, with the cable ports 383 in the wiring module base 363 of the junction box 12, as seen in Fig. 190; and with the cable ports 39, 42 in the wiring module base 23 ofthe wallbox 1, as seen in Fig. 120.
- a 4-conductor cable 18 there is provided a 4-conductor cable 18.
- the cable sheath 591 is constructed of polyurethane, or otherwise a durable elastomer.
- the 4-conductor cable 18 contains three insulated wire conductors 592, 593, 595 and one ground wire conductor 594.
- the insulated wire conductors 592, 593, 595 are provided with an individual wire insulation sheath 596 for additional protection.
- the cable sheath 591 is extruded with two center-projection grooves 597 to provide a specific exterior profile.
- the wire conductors 592- 595 are located in the cable sheath 591 relative to the specific exterior profile such that the 4- con uctor ca e prov es a s p- t w t t e -con uctor ca e ports , n t e w ng module base 423 ofthe light box 13, as seen in Figs. 199 and 200; also, with the cable ports 39, 42 in the wiring module base 23 ofthe wallbox 1, as seen in Fig. 141.
- the cable sheath 601 is constructed of polyurethane, or otherwise a durable elastomer.
- the 5-conductor cable 19 contains four insulated wire conductors 602, 603, 605, 606 and one ground wire conductor 604.
- the insulated wire conductors 602, 603, 605, 606 are provided with an individual wire insulation sheath 607 for additional protection.
- the cable sheath 601 is extruded with two center-projection grooves 608 to provide a specific exterior profile.
- the wire conductors 602-606 are located in the cable sheath 601 relative to the specific exterior profile such that the 5-conductor cable 19 provides a slip-fit with the 5-conductor cable ports 472, 473 in the wiring module base 423 ofthe light box 13, as seen in Fig. 206; also, with the cable ports 39, 42 in the wiring module base 23 ofthe wallbox 1, as seen in Fig. 150.
- a receptacle circuit 80 which illustrates the use and operation ofthe receptacle module 2.
- the receptacle circuit 80 is comprised of a wallbox 1, a receptacle module 2, and a 3-conductor cable 17.
- the 3-conductor cable 17 provides electrical power to the wallbox 1 and is shown inserted into the left half 40 of the top cable port 39.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only to the left half 40 or right half 41, as seen in Fig. 120.
- the 3-conductor cable 17 may also be connected to the left half 43 or right half 44 ofthe bottom cable port 42 in the same manner.
- Wire conductor- A 582 ofthe 3-conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- the 3-conductor cable 17 is inserted into the left half 40, 43 of either the top cable port 39 or the bottom cable port 42, the three wire conductors 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 of the wire adapters 28, 29, 30; with wire conductor-A 582 connected to wire adapter-D 28, wire conductor-B 583 connected to wire adapter-E 29, and wire conductor-C 584 connected to wire adapter-F 30.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 28, 42 and secured by means ofthe cable clamp 33 and cable clamp screws 34.
- the positive blade conductors 131 protrude through blade slot-A 53 and blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter- A 25 and wire adapter-D 28, respectively.
- the positive blade conductors 131 thereby connect wire adapter-A 25 to wire adapter-D 28 and to the positive plug adapter 83, as seen in Fig. 124.
- the neutral blade conductors 132 protrude through blade slot-B 54 and blade slot-E 57 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-B 26 and wire adapter-E 29, respectively.
- the neutral blade conductors 132 thereby connect wire adapter-B 26 to wire adapter-E 29 and to the neutral plug adapter 84, as seen in Fig. 122.
- the ground blade conductors 133 protrude through blade slot-C 55 and blade slot-F 58 of the wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-C 27 and wire adapter-F 30, respectively.
- the ground blade conductors 133 thereby connect wire adapter-C 27 to wire adapter-F 30 and to the grounding bar 87, as seen in Fig. 123.
- the grounding bar 87 is connected to the grounding plate 86 to which are attached the ground plug adapters 85.
- the grounding plate 86 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 2, 17, in itself self-configures the receptacle circuit 80 and self- distributes a dedicated earth ground to the components.
- the electrical power is supplied to the wallbox 1 by means of a 3-conductor cable 17 connected to the left half 40 ofthe top cable port 39.
- Continuity is provided between the positive plug adapter 83 ofthe receptacle module 2 and wire conductor-A 582 ofthe 3-conductor cable 17.
- Continuity is also provided between the neutral plug adapter 84 and wire conductor-B 583, and between the ground plug adapters 85 and wire conductor-C 584 ofthe 3-conductor cable 17.
- the positive blade 137 ofthe electrical plug 136 is inserted into the positive plug adapter 83, thereby providing the electrical plug 136 with a positive conductor.
- the private blade 138 ofthe electrical plug 136 is inserted into the neutral plug adapter 84, thereby providing the electrical plug 136 with a neutral conductor.
- the ground blade 139 ofthe electrical plug 136 is inserted into the ground plug adapter 85, thereby providing the electrical plug 136 with a grounded conductor.
- a 3-conductor cable 17 may be connected to the left half 43 and the right half 44 ofthe bottom cable port 42, and to the right half 41 ofthe top cable port 39 to provide electrical power for other circuits; with wire conductor-A 582 ofthe 3-conductor cables 17 serving as the positive conductor, wire conductor-B 583 serving as the neutral conductor, and wire conductor- serv ng as t e groun con uctor.
- wire conductor-A 582 ofthe 3-conductor cables 17 serving as the positive conductor
- wire conductor-B 583 serving as the neutral conductor
- wire conductor- serv ng as t e groun con uctor.
- stan ar wa p ate s mounte to t e receptac e module 2 with one mounting screw 135.
- a ganging module circuit 140 which illustrates the use and operation ofthe ganging module 3.
- the ganging module 3 is used with a wallbox 1 to create additional electrical circuits from one electrical circuit.
- the ganging module circuit 140 is comprised of a wallbox 1, a ganging module 3, and a 3-conductor cable 17.
- the 3-conductor cable 17 provides electrical power to the wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only to the left half 40 or right half 41, as seen in Fig. 126.
- the 3-conductor cable 17 may also be connected to the left half 43 or right half 44 ofthe bottom cable port 42 in the same manner.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- the three wire conductors 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire- pressure sockets 67 ofthe wire adapters 28, 29, 30; with wire conductor-A 582 connected to wire adapter-D 28, wire conductor-B 583 connected to wire adapter-E 29, and wire conductor-C 584 connected to wire adapter-F 30.
- the cable sheath 581 is stripped from the end ofthe 3- conductor cable 17 before being fully inserted into the cable port 28, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the ganging module 3 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 143 ofthe ganging module 3.
- the positive blade conductors 172 protrude through blade slot-A 53 and blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-A 25 and wire adapter-D 28, respectively.
- the positive blade conductors 172 thereby connect wire adapter-A 25 to wire adapter-D 28, as seen in Fig. 130.
- the neutral blade conductors 173 protrude through blade slot-B 54 and blade slot-E 57 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-B 26 and wire adapter-E 29, respectively.
- the neutral blade conductors 173 thereby connect wire adapter-B 26 to wire adapter-E 29, as seen in Fig. 128.
- the ground blade conductors 174 protrude through blade slot-C 55 and blade slot-F 58 ofthe wiring module cover an n o e a e-pressure soc e s o w re a apter- an w re a apter- , respectively.
- the ground blade conductors 174 thereby connect wire adapter-C 27 to wire adapter-F 30 and to the grounding bar 144, as seen in Fig. 129.
- the grounding bar 144 is connected to the grounding plate 143 which is in contact with the spring clips 31.
- the spring clips 31 are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 3, 17, in itself, self-configures the ganging module circuit 140 and self- distributes a dedicated earth ground to the components.
- the electrical power is supplied to the wallbox 1 by means of a 3-conductor cable 17 connected to the left half 40 ofthe top cable port 39. Continuity is provided between wire conductor-C 584 ofthe 3-conductor cable 17 and the grounding plate 143 ofthe ganging module 3 as well as the electrical box 21, thereby grounding the ganging module 3 and the electrical box 21.
- a 3-conductor cable 17 may be connected to the left half 43 and the right half 44 ofthe bottom cable port 42, and to the right half 41 ofthe top cable port 39 to provide electrical power for other circuits; with wire conductor-A 582 of the 3-conductor cables 17 serving as the positive conductor, wire conductor-B 583 serving as the neutral conductor, and wire conductor-C 584 serving as the ground conductor.
- a wallplate 175 is mounted to the ganging module 3 with one mounting screw 176.
- the wallbox jumper 16 is used to electrically connect two adjacent wallboxes 1 and may only be used with wallboxes 1 which contain a receptacle module 2 or a ganging module 3.
- the 3-conductor cable 17 provides electrical power to the left wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39.
- the specific exterior profile ofthe 3- conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 132.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the left handle extension 574 ofthe wallbox jumper 16 is shown inserted into the right half 41 ofthe top cable port 39 ofthe left wallbox 1 and the right handle extension 575 is inserted into the left half 40 ofthe top cable port 39 ofthe right wallbox 1.
- the specific exterior profile ofthe handle extensions 574, 575 and the specific interior profile ofthe top cable ports 39 permits connection in one orientation only, as seen in Fig. 132.
- Jumper-GK 568 ofthe wallbox jumper 16 serves as the positive conductor
- jumper-HL 569 serves as the neutral conductor
- jumper- JM 570 serves as the ground conductor.
- the three wires 565, 566, 567 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27;with wire-K 565 connected to wire adapter-A 25, wire-L 566 connected to wire adapter-B 26, and wire-M 567 connected to wire adapter-C 27.
- the wallbox jumper 16 provides continuity between wire adapter-A 25 ofthe right wallbox 1 and wire conductor-A 582 ofthe 3-conductor cable 17 connected to the left half 40 ofthe top cable port 39 ofthe left wallbox 1 , thereby providing the right wallbox 1 with a positive conductor.
- the wallbox jumper 16 provides continuity between wire adapter-B 26 ofthe right wallbox 1 and wire conductor-B 583 ofthe 3-conductor cable 17, thereby providing the right wallbox 1 with a neutral conductor. Also, the wallbox jumper 16 provides continuity between wire adapter-C 27 ofthe right wallbox 1 and wire conductor-C 584 ofthe 3-conductor cable 17, thereby providing the right wallbox 1 with a grounded conductor.
- a 3-conductor cable 17 may be connected to the left half 43 and the right half 44 ofthe bottom cable port 42 of both wallboxes 1, and to the right half 41 ofthe top cable port 39 ofthe right wallbox 1 to provide electrical power for other circuits; with wire conductor-A 582 ofthe 3-conductor cables 17 serving as the positive conductor, wire conductor-B 583 serving as the dural conductor, and wire conductor-C 584 serving as the ground conductor.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cables 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the wallbox jumper 16 is also secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- a 2-way-switch circuit 180 which illustrates the use and operation ofthe 2-way-switch module 4.
- the 2-way-switch circuit 180 is comprised of a wallbox 1, a 2-way-switch module 4, and a 3-conductor cable 17.
- the 3- conductor cable 17 provides the connection from the light box 13 to the wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 134.
- the 3-conductor cable 17 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 582 of the 3 -conductor cable 17 serves as the source-positive conductor
- wire conductor-B 583 serves as t e return-pos t ve con uctor
- an w re con uctor- serves as t e groun con uctor.
- the 3-conductor cable 17 is inserted into the left half 40, 43 of either the top cable port 39 or the bottom cable port 42, the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the 2-way-switch module 4 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 183 ofthe 2-way-switch module 4. As the 2-way-switch module 4 is inserted into the wallbox 1, the switch-arm blade conductor 227 ofthe switch-arm assembly 185 protrudes through blade slot-A 53 ofthe wiring module cover 24 and into the blade- pressure socket 70 of wire adapter-A 25, as seen in Fig. 139.
- the switch- contact blade conductor 228 ofthe switch-contact assembly 186 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26, as seen in Fig. 137.
- the ground blade conductor 187 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 138.
- the ground blade conductor 187 is connected to the grounding bar 184 which is connected to the grounding plate 183.
- the grounding plate 183 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 31, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 4, 17, in itself self-configures the 2-way-switch circuit 180 and self- distributes a dedicated earth ground to the components. It can be seen from Fig.136 that when the switch lever 190 is in the up position, the switch-arm actuator 222 allows the switch arm 225 ofthe switch-arm assembly 185 to make contact with the contact tip 226 ofthe switch- contact assembly 186, thereby providing continuity from wire conductor-A 582 to wire conductor-B 583 ofthe 3-conductor cable 17.
- wire conductor-A 582 and wire conductor-B 583 are interrupted when the switch lever 190 is in the down position as the switch-arm actuator 222 forces the switch arm 225 away from the contact tip 226 ofthe switch-contact assembly 186, as seen in Fig. 135. It can also be seen that continuity is provided between wire conductor-C 584 ofthe 3-conductor cable 17 and the grounding plate 183 ofthe 2-way-switch module 4 as well as the electrical box 21, thereby grounding the 2-way-switch module 4 and the electrical box 21.
- the compression spring 189 provides quick action to reduce arcing and increase switch life.
- a standard wallplate 234 is mounted to the 2-way-switch module 4 with two mounting screws 235. e err ng to gs.
- the 3-way-switch circuit 240 is comprised of a wallbox 1, a 3-way-switch module 5, and a 4-conductor cable 18.
- the 4- conductor cable 18 provides the connection from the light box 13 to the wallbox 1 and is shown inserted into the top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 4- conductor cable 18 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 141.
- the 4-conductor cable 18 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 592, wire conductor-B 593, and wire conductor-D 595 ofthe 4-conductor cable 18 serve as the source-positive and return- positive conductors
- wire conductor-C 594 serves as the ground conductor.
- the cable sheath 591 is stripped from the end ofthe 4- conductor cable 18 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the 3-way-switch module 5 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 243 ofthe 3-way-switch module 5. As the 3-way-switch module 5 is inserted into the wallbox 1, the blade conductor 291 ofthe switch-arm assembly 245 protrudes through blade slot-A 53 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-A 25, as seen in Fig. 148.
- the blade conductor 292 ofthe left switch-contact assembly 246 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26, as seen in Fig. 146.
- the blade conductor 293 ofthe right switch-contact assembly 247 protrudes through blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-D 28.
- the ground blade conductor 248 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 147.
- the ground blade conductor 248 is connected to the grounding bar 244 which is connected to the grounding plate 243.
- the grounding plate 243 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 5, 18, in itself, self-configures the 3-way-switch circuit 240 and self- distributes a dedicated earth ground to the components.
- the left switch-arm actuator 284 allows the left switch arm 288 ofthe switch-arm assembly 245 to make contact with the contact tip 290 of t e e sw tc -contact assem y as t e g t sw tc -arm actuator 285 forces the g t sw tc arm 289 away from the contact tip 290 ofthe right switch-contact assembly 247, thereby providing continuity from wire conductor-A 592 to wire conductor-B 593 and interrupting continuity between wire conductor-A 592 and wire conductor-D 595 ofthe 4-conductor cable 18.
- the right switch-arm actuator 285 allows the right switch arm 289 ofthe switch-arm assembly 245 to make contact with the contact tip 290 ofthe right switch-contact assembly 247 as the left switch-arm actuator 284 forces the left switch arm 288 away from the contact tip 290 ofthe left switch-contact assembly 246, thereby providing continuity from wire conductor-A 592 to wire conductor-D 595 and interrupting continuity between wire conductor-A 592 and wire conductor-B 593 ofthe 4-conductor cable 18, as seen in Figs. 142 and 144.
- a standard wallplate 234 is mounted to the 3-way-switch module 5 with two mounting screws 235.
- a 4-way-switch circuit 300 which illustrates the use and operation ofthe 4-way-switch module 6.
- the 4-way*switch circuit 300 is comprised of a wallbox 1, a 4-way-switch module 6, and a 5-conductor cable 19.
- the 5- conductor cable 19 provides the connection from the light box 13 to the wallbox 1 and is shown inserted into the top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 5- conductor cable 19 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 150.
- the 5-conductor cable 19 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 602 and wire conductor-B 603 ofthe 5-conductor cable 19 serve as the source-positive conductors
- wire conductor-D 605 and wire conductor-E 606 serve as the return-positive conductors
- wire conductor-C 604 serves as the ground conductor.
- the five wires 602, 603, 604, 605, 606 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27, 28, 29; with wire conductor-A 602 connected to wire adapter-A 25, wire conductor-B 603 connected to wire adapter-B 26, wire conductor-C 604 connected to wire adapter-C 27, wire conductor-D 605 connected to wire adapter-D 28, and wire conductor-E 606 connected to wire adapter-E 29.
- the cable sheath 601 is stripped from the end ofthe 5- conductor cable 19 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the 4-way-switch module 6 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 303 ofthe 4-way-switch module 6.
- the blade conductor 353 ofthe left switch-arm assembly 305 protrudes through blade slot-A 53 ofthe wiring module cover 24 an into the blade-pressure soc e o w re a ap er- , as seen n g. . e a e con uc or o e g switch-arm assembly 306 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26.
- the blade conductor 355 ofthe left switch-contact assembly 307 protrudes through blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-D 28, as seen in Fig. 155.
- the blade conductor 356 ofthe right switch-contact assembly 308 protrudes through blade slot-E 57 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-E 29.
- the ground blade conductor 309 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 156.
- the ground blade conductor 309 is connected to the grounding bar 304 which is connected to the grounding plate 303.
- the grounding plate 303 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the left switch-arm actuator 346 allows the switch arm 350 ofthe left switch-arm assembly 305 to make contact with the contact tip 352 of the right switch-contact assembly 308 as the right switch-arm actuator 347 forces the switch arm 351 ofthe right switch-arm assembly 306 to make contact with the contact tip 352 ofthe left switch-contact assembly 307, thereby providing continuity from wire conductor-A 602 to wire conductor-E 606 and from wire conductor-B 603 to wire conductor-D 605 ofthe 5- conductor cable 19.
- the left switch-arm actuator 346 forces the switch arm 350 ofthe left switch-arm assembly 305 to make contact with the contact tip 352 ofthe left switch-contact assembly 307 as the right switch-arm actuator 347 allows the switch arm 351 ofthe right switch-arm assembly 306 to make contact with the contact tip 352 ofthe right switch-contact assembly 308, thereby providing continuity from wire conductor-A 602 to wire conductor-D 605 and from wire conductor-B 603 to wire conductor-E 606, as seen in Figs. 151 and 153.
- a standard wallplate 234 is mounted to the 4-way-switch module 6 with two mounting screws 235.
- a dimmer switch circuit 700 which illustrates the use and operation ofthe dimmer switch module 7.
- the dimmer switch circuit 700 is comprised of a wallbox 1, a dimmer switch module 7, and a 3-conductor cable 17.
- the 3- conductor cable 17 provides the electrical connection to the wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 159.
- the 3-conductor cable 17 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 582 ofthe 3- conductor cable 17 serves as the source-positive conductor
- wire conductor-B 583 serves as the return-positive conductor
- wire conductor-C 584 serves as the ground conductor.
- the 3- conductor cable 17 is inserted into the left half 40, 43 of either the top cable port 39 or the bottom cable port 42, the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the dimmer switch module 7 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 703 ofthe dimmer switch module 7. As the dimmer switch module 7 is inserted into the wallbox 1, the source-positive blade conductor 705 protrudes through blade slot-A 53 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-A 25, as seen in Fig. 163.
- the return- positive blade conductor 706 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26, as seen in Fig. 161.
- the ground blade conductor 707 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 162.
- the ground blade conductor 707 is connected to the grounding bar 704 which is connected to the grounding plate 703.
- the grounding plate 703 is in contact with the spring clips 31 which are connected to the electrical box 21 by means of the rivets 31 , thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 7, 17, in itself self-configures the dimmer switch circuit 700 and self- distributes a dedicated earth ground to each component.
- the dimmer device 708 controls the electrical current and voltage from the source-positive blade conductor 705 to the return-positive blade conductor 706, thereby providing continuity from wire conductor-A 582 to wire conductor-B 583 ofthe 3-conductor cable 17.
- the continuity between wire conductor-A 582 and wire conductor-B 583 is interrupted when the control shaft 710 is rotated to the extreme counter-clockwise location where the dimmer device 708 is in the "off position.
- the dimmer device 708 When the control shaft 710 is rotated in the clockwise direction and comes off the extreme counter-clockwise location, the dimmer device 708 is in the "on" position and electrical cunent may travel from wire conductor-A 582 to wire conductor-B 583 ofthe 3- con uctor ca e . s e confro s a s ur er rotate n e c oc w se rect on, e dimmer device 708 varies the electrical voltage from the wire conductor-A 582 to wire conductor-B 583, thereby providing a means to adjust the light intensity of light fixtures.
- a standard wallplate 738 is mounted to the dimmer switch module 7 with two mounting screws 739.
- a fan-control switch circuit 750 which illustrates the use and operation ofthe fan-control switch module 8.
- the fan-control switch circuit 750 is comprised of a wallbox 1, a fan-control switch module 8, and a 3- conductor cable 17.
- the 3-conductor cable 17 provides the electrical connection to the wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 165.
- the 3-conductor cable 17 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the source-positive conductor
- wire conductor-B 583 serves as the return-positive conductor
- wire conductor-C 584 serves as the ground conductor.
- the 3-conductor cable 17 is inserted into the left half 40, 43 of either the top cable port 39 or the bottom cable port 42, the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the fan-control switch module 8 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 753 ofthe fan-control switch module 8. As the fan-control switch module 8 is inserted into the wallbox 1, the source-positive blade conductor 755 protrudes through blade slot-A 53 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-A 25, as seen in Fig. 169.
- the return- positive blade conductor 756 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26, as seen in Fig. 167.
- the ground blade conductor 757 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 168.
- the ground blade conductor 757 is connected to the grounding bar 754 which is connected to the grounding plate 753.
- the grounding plate 753 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 31, thereby grounding the electrical box 21.
- the fan-control device 758 When the control shaft 760 is rotated in the clockwise direction and comes off the extreme counter-clockwise location, the fan-control device 758 is in the "on" position and electrical current may travel from wire conductor-A 582 to wire conductor-B 583 ofthe 3- conductor cable 17. As the control shaft 760 is further rotated in the clockwise direction, the fan-control device 758 varies the electrical voltage from the wire conductor-A 582 to wire conductor-B 583, thereby providing a means to adjust the speed of electric fans and other electric motors.
- a standard wallplate 738 is mounted to the fan-control switch module 8 with two mounting screws 739.
- a timer switch circuit 800 which illustrates the use and operation ofthe timer switch module 9.
- the timer switch circuit 800 is comprised of a wallbox 1, a timer switch module 9, and a 3-conductor cable 17.
- the 3- conductor cable 17 provides the electrical connection to the wallbox 1 and is shown inserted into the left half 40 ofthe top cable port 39 ofthe wallbox 1.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 171.
- the 3-conductor cable 17 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 582 ofthe 3- conductor cable 17 serves as the source-positive conductor
- wire conductor-B 583 serves as the return-positive conductor
- wire conductor-C 584 serves as the ground conductor.
- the 3- conductor cable 17 is inserted into the left half 40, 43 of either the top cable port 39 or the bottom cable port 42, the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the timer switch module 9 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 803 ofthe timer switch module 9. As the timer switch module 9 is inserted into the wallbox 1, the source-pos t ve a e conductor 805 protrudes throug a e slot-A 53 of the wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-A 25, as seen in Fig. 175.
- the return-positive blade conductor 806 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26, as seen in Fig. 173.
- the ground blade conductor 807 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 174.
- the ground blade conductor 807 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27, as seen in Fig. 174.
- grounding bar 804 which is connected to the grounding plate 803.
- the grounding plate 803 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 31, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 9, 17, in itself self-configures the timer switch circuit 800 and self- distributes a dedicated earth ground to each component. It can also be seen that the timer device
- the time duration that the timer device 808 will remain “on” is dependent on how far the control shaft 810 is rotated in the clockwise direction. As the control shaft 810 is further rotated in the clockwise direction, the time duration increases that the timer device 808 will allow the electrical current to travel from wire conductor-A 582 to wire conductor-B 583, thereby providing a means to adjust the time for electrical appliances to turn off automatically.
- the control shaft 810 is rotated clockwise manually and returns to the extreme counter-clockwise location automatically by the timer device 808 as the time duration expires.
- a standard wallplate 738 is mounted to the timer switch module 9 with two mounting screws 739.
- a GFCI-receptacle circuit 850 which illustrates the use and operation ofthe GFCI-receptacle module 10.
- the GFCI-receptacle circuit 850 is comprised ofa wallbox 1, a GFCI-receptacle module 10, and 3-conductor cables 17.
- the specific exterior profile ofthe 3-conductor cables 17 and the specific interior profile of t e top ca e port perm ts connect on n one o entat on on y to t e e half 40 or g t a 41, as seen in Fig. 177.
- the 3-conductor cable 17 shown inserted into the left half 40 ofthe top cable port 39 provides electrical power to the wallbox 1.
- the 3-conductor cable 17 may also be connected to the left half 43 ofthe bottom cable port 42 in the same manner.
- Wire conductor-A 582 ofthe 3- conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- the three wire conductors 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27; with wire conductor-A 582 connected to wire adapter-A 25, wire conductor-B 583 connected to wire adapter-B 26, and wire conductor-C 584 connected to wire adapter-C 27.
- the cable sheath 581 is stripped from the end ofthe 3-conductor cable 17 before being fully inserted into the cable port 39, 42 and secured by means ofthe cable clamp 33 and the cable clamp screws 34.
- the GFCI receptacle module 10 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 856 ofthe GFCI receptacle module 10. As the GFCI receptacle module 10 is inserted into the wallbox 1, the source-positive blade conductor 858 and the GFCI- positive blade conductor 860 protrude through blade slot-A 53 and blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-A 25 and wire adapter- D 28, respectively.
- the source-positive blade conductor 858 thereby connects wire adapter-A 25 to the GFCI device 864 and the GFCI-positive blade conductor 860 connects wire adapter-D 28 to the GFCI device 864, as seen in Fig. 181. Therefore, continuity is provided between wire conductor-A 582 ofthe 3-conductor cable 17 inserted into the left half 40 ofthe top cable port 39 and the positive plug adapter 853 ofthe GFCI-receptacle module 10, via the GFCI device 864. Continuity is also provided between wire conductor-A 582 ofthe 3-conductor cable 17 inserted into the left half 40 ofthe top cable port 39 and wire adapter-D 28, via the GFCI device 864.
- the source- neutral blade conductor 859 and the GFCI-neutral blade conductor 861 protrude through blade slot-B 54 and blade slot-E 57 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-B 26 and wire adapter-E 29, respectively.
- the source-neutral blade conductor 859 thereby connects wire adapter-B 26 to the GFCI device 864 and the GFCI-neutral blade conductor 861 connects wire adapter-E 29 to the GFCI device 864, as seen in Fig. 179.
- continuity is provided between wire conductor-B 583 ofthe 3-conductor cable 17 inserted into the left half 40 ofthe top cable port 39 and the neutral plug adapter 854 ofthe GFCI-receptacle module 108, via the GFCI device 864.
- Continuity is also provided between wire conductor-B 583 ofthe 3 -conductor cable 17 inserted into the left half 40 ofthe top cable port 39 and wire adapter-E 29, via the GFCI device 864.
- the ground blade conductors 862 protrude through blade slot-C 55 and blade slot-F 58 ofthe wiring module cover 24 and into the blade-pressure sockets 70 of wire adapter-C 27 and wire adapter-F 30, respectively.
- the ground blade conductors 862 thereby connect wire adapter-C 27 to wire adapter-F 30 and to the grounding bar 857, as seen in Fig. 180.
- the grounding bar 857 is connected to the grounding plate 856 to which are attached the ground plug adapters 855.
- grounding plate 856 is in contact with the spring clips 31 which are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the 3-conductor cable 17 shown inserted into the right half 41 ofthe top cable port 39 provides GFCI electrical power to other electrical circuits.
- the 3-conductor cable 17 may also be connected to the right half 44 ofthe bottom cable port 42 in the same manner.
- the three wires 582, 583, 584 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 28, 29, 30; with wire conductor-A 582 connected to wire adapter-D 28, wire conductor-B 583 connected to wire adapter-E 29, and wire conductor-C 584 connected to wire adapter-F 30. Therefore, wire conductor-A 582 ofthe 3-conductor cable 17 serves as the GFCI-positive conductor, wire conductor-B 583 serves as the GFCI-neutral conductor, and wire conductor-C 584 serves as the ground conductor.
- the positive blade 919 ofthe electrical plug 918 is inserted into the positive plug adapter 853, thereby providing the elecfrical plug 918 with a GFCI-positive conductor.
- the neutral blade 920 ofthe electrical plug 918 is inserted into the neutral plug adapter 854, thereby providing the electrical plug 918 with a GFCI-neutral conductor.
- the ground blade 921 ofthe electrical plug 918 is inserted into the ground plug adapter 855, thereby providing the electrical plug 918 with a grounded conductor.
- a 3-conductor cable 17 may be connected to the left half 43 ofthe bottom cable port 42 to provide electrical power for other circuits; with wire conductor-A 582 ofthe 3-conductor cables 17 serving as the positive conductor, wire conductor-B 583 serving as the neutral conductor, and wire conductor-C 584 serving as the ground conductor.
- a 3-conductor cable 17 may also be connected to the right half 44 ofthe bottom cable port 42 to provide GFCI- electrical power for other circuits; with wire conductor-A 582 ofthe 3-conductor cables 17 serving as the GFCI-positive conductor, wire conductor-B 583 serving as the GFCI-neutral conductor, and wire conductor-C 584 serving as the ground conductor.
- a standard wallplate 916 is mounted to the GFCI receptacle module 10 with two mounting screws 917.
- the assembly ofthe electrical components 1, 10, 17, in itself self-configures the GFCI-receptacle circuit 850 and self-distributes a dedicated earth ground to the components.
- electrical current travels from wire con uc or- o e -con uctor ca e nserte nto t e e a o t e top ca e po 39, through wire adapter-A 25, through the source-positive blade conductor 858, through the GFCI device 864, through the positive plug adapter 853, and into the positive-blade 919 of the electrical plug 918.
- the electrical current returns from the appliance through the neutral blade 920 ofthe electrical plug 918, through the neutral plug adapter 854, through the GFCI device 864, through the source-neutral blade conductor 859, through wire adapter-B 26, and into wire conductor-B 583 ofthe 3-conductor cable 17 inserted into the left half 40 ofthe top cable port 39.
- the electrical current returns from the 3-conductor cable 17 inserted into the right half 41 ofthe top cable port 39 through wire conductor-B 583, through the GFCI-neutral blade conductor 861, through the GFCI device 864, through the source-neutral blade conductor 859, through wire adapter-B 26, and into wire conductor-B 583 ofthe 3-conductor cable 17 inserted into the left half 40 ofthe top cable port 39.
- the GFCI device 864 monitors the electrical current through the source-positive blade conductor 858 relative to the electrical current through the source-neutral blade conductor 859 to detect a leakage current to ground or "ground fault condition", indicating stray electrical current and possible electrocution of a person. Upon detection of a ground fault condition, the GFCI device 864 trips, thereby interrupting the electrical current to the positive plug adapter 853 and the GFCI-positive blade conductor 860.
- the GFCI receptacle module 10 may be tested periodically by pressing the "Test" pushbutton 865 which simulates a ground fault condition. After a ground fault condition has occurred, or after testing, the GFCI receptacle module 10 may be reset by pressing the "Reset" pushbutton 867 which resets the GFCI device 864 after it has been tripped.
- a 240 volt receptacle circuit 930 which illustrates the use and operation ofthe 240 volt receptacle module 11.
- the 240 volt receptacle circuit 930 is comprised of a wallbox 1, a 240 volt receptacle module 11, and a 4- conductor cable 18.
- the 4-conductor cable 18 provides 240 volt electrical power to the wallbox 1 and is shown inserted into the top cable port 39.
- the 240 volts is nominal and the actual voltage is dependent on the power source.
- the specific exterior profile ofthe 4-conductor cable 18 and the specific interior profile ofthe top cable port 39 permits connection in one orientation only, as seen in Fig. 184.
- the 4-conductor cable 18 may also be connected to the bottom cable port 42 in the same manner.
- Wire conductor-A 142 ofthe 4-conductor cable 18 serves as the left positive conductor
- wire conductor-B 143 serves as the neutral conductor
- wire conductor-C serves as t e groun con uctor
- an w re con uctor- serves as t e g t pos t ve conductor.
- the four wires 142, 143, 144, 145 protrude through the wire entrance holes 47 ofthe wiring module base 23 and into the wire-pressure sockets 67 ofthe wire adapters 25, 26, 27, 28; with wire conductor-A 142 connected to wire adapter-A 25, wire conductor-B 143 connected to wire adapter-B 26, wire conductor-C 144 connected to wire adapter-C 27, and wire conductor-D 145 connected to wire adapter-D 28.
- the cable sheath 141 is stripped from the end ofthe 4-conductor cable 18 before being fully inserted into the cable port 28, 42 and secured by means ofthe cable clamp 33 and cable clamp screws 34.
- the 240 volt receptacle module 11 is inserted into the wallbox 1 until the spring clips 31 snap over the grounding plate 940 ofthe 240 volt receptacle module 11.
- the blade conductor 936 ofthe left positive plug adapter 933 protrudes through blade slot-A 53 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-A 25.
- the blade conductor 936 thereby connects wire adapter-A 25 to the left positive plug adapter 933, as seen in Fig. 188.
- the blade conductor 937 ofthe right positive plug adapter 934 protrudes through blade slot-D 56 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-D 28.
- the blade conductor 937 thereby connects wire adapter-D 28 to the right positive plug adapter 934, as seen in Fig. 188.
- the blade conductor 938 ofthe neutral plug adapter 935 protrudes through blade slot-B 54 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-B 26.
- the blade conductor 938 thereby connects wire adapter-B 26 to the neutral plug adapter 935, as seen in Fig. 186.
- the ground blade conductor 939 protrudes through blade slot-C 55 ofthe wiring module cover 24 and into the blade-pressure socket 70 of wire adapter-C 27.
- the ground blade conductor 939 thereby connects wire adapter-C 27 to the grounding bar 941, as seen in Fig. 187.
- the grounding bar 941 is connected to the grounding plate 940 which is in contact with the spring clips 31.
- the spring clips 31 are connected to the electrical box 21 by means ofthe rivets 32, thereby grounding the electrical box 21.
- the assembly ofthe electrical components 1, 11, 18, in itself self-configures the 240-volt receptacle circuit 930 and self-distributes a dedicated earth ground to the components.
- the electrical power is supplied to the wallbox 1 by means of a 4-conductor cable 18 connected to the top cable port 39.
- Continuity is provided between the left positive plug adapter 933 ofthe 240 volt receptacle module 11 and wire conductor-A 142 ofthe 4-conductor cable 18; between the neutral plug adapter 935 and wire conductor-B 143; between the grounding plate 940 and wire conductor-C 144; and between the right positive plug adapter 934 and wire conductor-D 145.
- the left positive blade 978 ofthe electrical plug 977 is inserted into the left positive plug adapter 933 and the right positive blade 979 is inserted into the right positive plug adapter 934, thereby providing the electrical plug 977 with two positive conductors.
- the debutral blade 980 ofthe electrical plug 977 is inserted into the neutral plug adapter 935, thereby providing the electrical plug 977 with a neutral conductor.
- continuity is provided between wire conductor-C 144 ofthe 4-conductor cable 18 and the grounding plate 940 ofthe 240 volt receptacle module 11 as well as the electrical box 21, thereby grounding the 240 volt receptacle module 11 and the electrical box 21.
- a wallplate 975 is mounted to the 240 volt receptacle module 11 with two mounting screws 976.
- Figs. 189 through 191 the operation and use of the junction box 12 is illustrated.
- Electrical power is provided to the junction box 12 by means of a 3 -conductor cable 17 inserted into any cable port 383 of the junction box 12, as seen in Fig 189.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- the three wires 582, 583, 584 protrude through the wire entrance holes 378 ofthe wiring module base 363 and into the wire-pressure sockets 400, 402, 404 ofthe wire adapters 365, 366, 367; with wire conductor-A 582 connected to the positive wire adapter 365, wire conductor-B 583 connected to the neutral wire adapter 366, and wire conductor-C 584 connected to the ground wire adapter 367. It can be easily seen from Fig.
- a 3-conductor cable 17 may be connected to any ofthe remaining cable ports 383 in the same manner to provide electrical power for another circuit, with wire conductor-A 582 connected to the positive wire adapter 365, wire conductor-B 583 connected to the neutral wire adapter 366, and wire conductor-C 584 connected to the ground wire adapter 367; thereby providing each 3-conductor cable 17 with a positive conductor, a neutral conductor, and a grounded conductor.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile ofthe cable ports 383 permits connection in one orientation only, as seen in Fig. 190.
- the ground wire adapter 367 is connected to the electrical box 361 by means ofthe rivet 368, thereby grounding the electrical box 361.
- the positive wire adapter 365, the neutral wire adapter 366, and the ground wire adapter 367 each provide a terminal screw 371 for wire connection, if required.
- the cable sheath 581 is stripped from the ends ofthe 3-conductor cable 17 before being fully inserted into the cable ports 383.
- the 3-conductor cables 17 are secured by means ofthe cable clamps 369 and the cable clamp screws 370.
- Figs. 192 through 210 the operation and use ofthe light box 13 is illustrated.
- Electrical power is provided to the light box 13 by means ofthe 3-conductor cable 17 inserted into cable port-A 466, as seen in Fig 192.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the positive conductor
- wire conductor-B 583 serves as the neutral conductor
- an w re con uctor- serves as t e groun con uctor.
- the three wires 582, 583, 584 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 501, 503, 505 ofthe wire adapters 425, 426, 427; with wire conductor-A 582 connected to the positive wire adapter 425, wire conductor-B 583 connected to the neutral wire adapter 426, and wire conductor-C 584 connected to the ground wire adapter 427.
- a 3-conductor cable 17 may be connected to cable port-B 467 in the same manner to provide electrical power for another circuit; with wire conductor-A 582 connected to the positive wire adapter 425, wire conductor-B 583 connected to the neutral wire adapter 426, and wire conductor-C 584 connected to the ground wire adapter 427.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile of cable port-A 466 and cable port-B 467 permits connection in one orientation only, as seen in Fig. 193.
- the light box 13 is shown wired for a 2-way-lighting circuit 535.
- a 2-way-lighting circuit 535 is utilized when only one switch location is desired.
- a 2-way-switch circuit 180 is connected to cable port-E 470 by means of a 3-conductor cable 17.
- the 3-conductor cable 17 provides the connection from the light box 13 to a 2-way-switch module 4 mounted in a wallbox 1, as illustrated in Figs. 133 through 139.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile of cable port-E 470 permits connection in one orientation only, as seen in Fig. 195.
- Wire conductor-A 582 ofthe 3- conductor cable 17 serves as the source-positive conductor
- wire conductor-B 583 serves as the return-positive conductor
- wire conductor-C 584 serves as the ground conductor.
- the 3- conductor cable 17 is inserted into cable port-E 470, the three wires 582, 583, 584 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 501, 509, 505 ofthe wire adapters 425, 429, 427; with wire conductor-A 582 connected to the positive wire adapter 425, wire conductor-B 583 connected to wire adapter-AD 429, and wire conductor-C 584 connected to the ground wire adapter 427.
- a 4-wire-jumper 15 is shown inserted into cable port-G 472 and cable port-H 473 ofthe light box 13.
- the 4-wire jumper 15 simulates a 4-way-switch circuit 300.
- the specific exterior profile ofthe 4-wire jumper 15 and the specific interior profile ofthe cable ports 472, 473 permits connection in one orientation only, as seen in Fig. 194.
- the four wires 552, 553, 554, 555 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 511, 512, 513, 514 ofthe wire adapters 429, 430, 431, 432; with wire-R 552 connected to wire adapter- BC 430, wire-S 553 connected to wire adapter-AD 429, wire-T 554 connected to wire adapter- EH 431, and wire-U 555 connected to wire adapter-FG 432.
- the four wires 552, 553, 554, 555 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 515, 516, 517, 518 ofthe wire adapters 431, 432, 433, 434; with wire-R 552 connected to the wire adapter-FG 432, wire-S 553 connected to wire adapter-EH 431, with wire-T 554 connected to the wire adapter- JM 433, and wire-U 555 connected to wire adapter-KL 434.
- - - - . - wire jumper 14 simulates a 2-way-switch circuit 180.
- the specific exterior profile ofthe 2-wire jumper 14 and the specific interior profile of cable port-F 471 permits connection in one orientation only, as seen in Fig. 196.
- the two wires 542, 543 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 507, 520 ofthe wire adapters 428, 433; with wire-N 542 connected to the light wire adapter 428, and wire-P 543 connected to wire adapter-JM 433.
- a positive conductor is connected to the positive wire adapter 425 ofthe light box 13 by means of wire conductor-A 582 ofthe 3-conductor cable 17 connected to cable port- A 466.
- Wire conductor-A 582 ofthe 3-conductor cable 17 connected to cable port-E is connected to the positive wire adapter 425 and serves as the source-positive conductor to the 2- way-switch module 4.
- Wire conductor-A 582 and wire conductor-B 583 serves as the return-positive conductor and is connected to wire adapter-AD 429.
- Jumper-ST 557 ofthe 4-wire jumper 15 inserted into cable port-G 472 provides continuity between wire adapter-AD 429 and wire adapter-EH 431.
- Jumper-ST 557 ofthe 4-wire jumper 15 inserted into cable port-H 473 provides continuity between wire adapter-EH 431 and wire adapter-JM 433.
- Jumper-NP 544 ofthe 2-wire jumper 14 inserted into cable port-F 471 provides continuity between wire adapter-JM 433 and the light wire adapter 428. Therefore, when the lever 190 ofthe 2-way switch module 4 is in the up position, continuity is provided between the light wire adapter 428 and wire conductor-A 582 of the 3-conductor cable 17 connected to cable port-A 466, thereby connecting a positive conductor to the light wire adapter 428. When the lever 190 ofthe 2-way-switch module 4 is in the down position, the continuity is interrupted, as illustrated in Figs. 133 through 139.
- the light wire adapter 428 provides a terminal screw 438 to accommodate the positive wire ofa light fixture.
- the light box 13 is shown wired for a 3-way-lighting circuit 536.
- a 3 -way-lighting circuit 536 is utilized when two switch locations are desired.
- a 3- way-switch circuit 240 is connected to cable port-E 470 and cable port-F 471 by means of a 4- conductor cable 18.
- the 4-conductor cable 18 provides the connection from the light box 13 to a 3-way-switch module 5 mounted in a wallbox 1, as illustrated in Figs. 140 through 148.
- the specific exterior profile ofthe 4-conductor cable 18 and the specific interior profile of cable port-E 470 and cable port-F 471 permits connection in one orientation only, as seen in Figs. 199 and 200.
- Wire conductor-A 592 ofthe 4-conductor cable 18 connected to cable port-E 470 serves as the source-positive conductor
- wire conductor-B 593 and wire conductor-D 595 serve as the return-positive conductors
- wire conductor-C 594 serves as the ground conductor.
- the four wires 592, 593, 594, 595 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire- , , , , , conductor-A 592 connected to the positive wire adapter 425, wire conductor-B 593 connected to wire adapter-AD 429, wire conductor-C 594 connected to the ground wire adapter 427, and wire conductor-D 595 connected to wire adapter-BC 430.
- Wire conductor-A 592 ofthe 4- conductor cable 18 connected to cable port-F 471 serves as the return-positive conductor
- wire conductor-B 593 and wire conductor-D 595 serve as the source-positive conductors
- wire conductor-C 594 serves as the ground conductor.
- the four wires 592, 593, 594, 595 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 508, 520, 505, 519 ofthe wire adapters 428, 433, 427, 434; with wire conductor-A 592 connected to the light wire adapter 428, wire conductor-B 593 connected to wire adapter-JM 433, wire conductor-C 594 connected to the ground wire adapter 427, and wire conductor-D 595 connected to wire adapter- KL 434.
- a 4-wire-jumper 15 is shown inserted into cable port-G 472 and cable port-H 473 ofthe light box 13 in the same manner as for the 2-way lighting circuit 535 discussed previously.
- a positive conductor is connected to the positive wire adapter 425 ofthe light box 13 by means of wire conductor-A 582 ofthe 3-conductor cable 17 connected to cable port- A 466.
- Wire conductor-A 592 ofthe 4-conductor cable 18 connected to cable port-E 470 is connected to the positive wire adapter 425 and serves as the source-positive conductor to the 3- way-switch module 5.
- wire conductor-B 593 or wire conductor-D 595 ofthe 4-conductor cable 18 connected to cable port-F 471 serve as the source- positive conductor to the 3-way-switch module 5; with wire conductor-B 593 connected to wire adapter-JM 433 and wire conductor-D 595 connected to wire adapter-KL 434.
- Wire conductor- A 592 is connected to the light wire adapter 428 and serves as the return-positive conductor.
- the lever 251 ofthe 3-way-switch module 5 When the lever 251 ofthe 3-way-switch module 5 is in the up position, continuity is provided between wire conductor-A 592 and wire conductor-B 593, as illustrated in Figs. 140 through . en e ever o e -way-sw c mo u e s n e own pos on, con nu y s provided between wire conductor-A 592 and wire conductor-D 595.
- the light box 13 is shown wired for a 4-way-lighting circuit 537.
- a 4-way-lighting circuit 537 is utilized when more than two switch locations are desired.
- a 3-way-switch circuit 240 is connected to cable port-E 470 and to cable port-F 471 of the light box 13 in the same manner as for the 3 -way-lighting circuit 536 discussed previously.
- a 4- wire-jumper 15 is shown inserted into cable port-H 473 ofthe light box 13 in the same manner as for the 2-way-lighting circuit 535 discussed previously.
- a 4-way-switch circuit 300 is connected to cable port-G 472 by means of a 5-conductor cable 19.
- the 5-conductor cable 19 provides the connection from the light box 13 to a 4-way- switch module 6 mounted in a wallbox 1, as illustrated in Figs. 149 through 157.
- the specific exterior profile ofthe 5-conductor cable 19 and the specific interior profile of cable port-G 472 permits connection in one orientation only, as seen in Fig. 203.
- Wire conductor-A 602 and wire conductor-B 603 ofthe 5-conductor cable 19 serve as the source-positive conductors
- wire conductor-D 605 and wire conductor-E 606 serve as the return-positive conductors
- wire conductor-C 604 serves as the ground conductor.
- the five wires 602, 603, 604, 605, 606 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 511, 512, 505, 513, 514 ofthe wire adapters 429, 430, 427, 431, 432; with wire conductor-A 602 connected to wire adapter-BC 430.
- wire conductor-B 603 connected to wire adapter-AD 429, wire conductor-C 604 connected to the ground wire adapter 427, wire conductor-D 605 connected to wire adapter-EH 431, and wire conductor-E 606 connected to wire adapter-FG 432.
- a positive conductor is connected to the positive wire adapter 425 ofthe light box 13 by means of wire conductor-A 582 ofthe 3-conductor cable 17 connected to cable port- A 466.
- Wire conductor-A 592 ofthe 4-conductor cable 18 connected to cable port-E 470 is connected to the positive wire adapter 425 and serves as the source-positive conductor to the 3- way-switch module 5.
- wire conductor-A 602 or wire conductor-B 603 ofthe 5- conductor cable 19 connected to cable port-G 472 serve as the source-positive conductor to the 4-way-switch module 6; with wire conductor-A 602 connected to wire adapter-BC 430 and wire conductor-B 603 connected to wire adapter-AD 429.
- Wire conductor-D 605 and wire conductor-E 606 ofthe 5-conductor cable 19 serve as the return-positive conductors with wire conductor-D 605 connected to wire adapter-EH 431 and wire conductor-E 606 connected to wire adapter-FG 432.
- Jumper-ST 557 ofthe 4-wire jumper 15 inserted into cable port-H 473 provides continuity between wire adapter-EH 431 and wire adapter-JM 433; and jumper-RU 556 provides continuity between wire adapter-FG 432 and wire adapter- KL 434.
- wire conductor-B 593 or wire conductor-D 595 ofthe 4-conductor cable 18 connected to cable port-F 471 serve as the source-positive conductor to the 3-way- switch module 5; with wire conductor-B 593 connected to wire adapter-JM 433 and wire conductor-D 595 connected to wire adapter-KL 434.
- Wire conductor-A 592 is connected to the light wire adapter 428 and serves as the return-positive conductor.
- the light wire adapter 428 provides a terminal screw 438 to accommodate the positive wire ofa light fixture. . , - - circuit 537 using two 4-way-switch circuits 300.
- a 3-way-switch circuit 240 is connected to cable port-E 470 and to cable port-F 471 ofthe light box 13, as well as a 4-way-switch circuit 300 connected to cable port-G 472, in the same manner as for the 4-way-lighting circuit 537 discussed above.
- a 4-way-switch circuit 300 is also connected to cable port-H 473 by means of a 5- conductor cable 19.
- the 5-conductor cable 19 provides the connection from the light box 13 to a 4-way-switch module 6 mounted in a wallbox 1, as illustrated in Figs. 149 through 157.
- the specific exterior profile ofthe 5-conductor cable 19 and the specific interior profile of cable port-H 473 permits connection in one orientation only, as seen in Fig. 206.
- Wire conductor-A 602 and wire conductor-B 603 ofthe 5-conductor cable 19 serve as the source-positive conductors
- wire conductor-D 605 and wire conductor-E 606 serve as the return-positive conductors
- wire conductor-C 604 serves as the ground conductor.
- the five wires 602, 603, 604, 605, 606 protrude through the wire entrance holes 458 ofthe wiring module base 423 and into the wire-pressure sockets 515, 516, 505, 517, 518 of the wire adapters 432, 431, 427, 433, 434; with wire conductor-A 602 connected to wire adapter-FG 432, wire conductor-B 603 connected to wire adapter-EH 431, wire conductor-C 604 connected to the ground wire adapter 427, wire conductor-D 605 connected to wire adapter-JM 433, and wire conductor-E 606 connected to wire adapter-KL 434.
- a positive conductor is connected to the positive wire adapter 425 ofthe light box 13 by means of wire conductor-A 582 ofthe 3-conductor cable 17 connected to cable port-A 466.
- Wire conductor-A 592 ofthe 4-conductor cable 18 connected to cable port-E 470 is connected to the positive wire adapter 425 and serves as the source-positive conductor to the 3-way-switch module 5.
- the lever 251 ofthe 3-way-switch module 5 is in the up position, continuity is provided between wire conductor-A 592 and wire conductor-B 593, as illustrated in Figs 140 through 148.
- Wire conductor-B 593 and wire conductor-D 595 serve as the return-positive conductors with wire conductor-B 593 connected to wire adapter-AD 429 and wire conductor-D 595 connected to wire adapter-BC 430.
- wire conductor-A 602 or wire conductor-B 603 ofthe 5- conductor cable 19 connected to cable port-G 472 serve as the source-positive conductor to the 4-way-switch module 6; with wire conductor-A 602 connected to wire adapter-BC 430 and wire conductor-B 603 connected to wire adapter-AD 429.
- Wire conductor-D 605 and wire conductor-E 606 ofthe 5-conductor cable 19 serve as the return-positive conductors with wire conductor-D 605 connected to wire adapter-EH 431 and wire conductor-E 606 connected to wire adapter-FG 432.
- wire conductor-A 602 or wire conductor-B 603 ofthe 5-conductor cable 19 connected to cable port-H 473 serve as the source- positive conductor to the 4-way-switch module 6; with wire conductor-A 602 connected to wire adapter-FG 432 and wire conductor-B 603 connected to wire adapter-EH 431.
- Wire conductor- D 605 and wire conductor-E 606 ofthe 5-conductor cable 19 serve as the return-positive conductors with wire conductor-D 605 connected to wire adapter-JM 433 and wire conductor-E 606 cormected to wire adapter-KL 434.
- the lever 312 ofthe 4-way-switch module 6 When the lever 312 ofthe 4-way-switch module 6 is in the up position, continuity is provided between wire conductor-A 602 and wire conductor-E 606, as well as between wire conductor-B 603 and wire conductor-D 605, as illustrated in Figs. 149 through 157.
- Wire conductor-A 592 is connected to the light wire adapter 428 and serves as the return-positive conductor.
- the lever 251 ofthe 3-way-switch module 5 When the lever 251 ofthe 3-way-switch module 5 is in the up position, continuity is provided between wire conductor-A 592 and wire conductor-B 593, as illustrated in Figs 140 through 148.
- the lever 251 ofthe 3-way-switch module 5 is in the down position, continuity is provided between wire conductor-A 592 and wire conductor- D 595.
- the light box 13 provides a means to operate additional light boxes 13 from the same switch circuits.
- a 3-conductor cable 17 is shown connected to cable port-C 468 ofthe light box 13 and provides the connection from the light box 13 to another light box 13 if more than one light fixture is to be operated with the same switch circuits.
- the specific exterior profile ofthe 3-conductor cable 17 and the specific interior profile of cable port-C 468 permits connection in one orientation only, as seen in Fig. 205.
- Wire conductor-A 582 ofthe 3-conductor cable 17 serves as the light-positive conductor
- wire conductor-B 583 serves as the neutral conductor
- wire conductor-C 584 serves as the ground conductor.
- a 3-conductor cable 17 may also be connected to cable port-D 469 in the same manner.
- the 3-conductor cable 17 is connected to cable port-C 468 or cable port-D 469 ofthe additional light box 13 in the same manner, as seen in Figs. 208 through 210.
- Wire conductor-C 584, 594, 604 of any cable 17, 18, 19 connected to any cable port 466, 467, 468, 469, 470, 471, 472, 473 is connected to the ground wire adapter 427 ofthe light box 13, thereby providing the cables 17, 18, 19 with a grounded conductor.
- the ground wire adapter 427 is connected to the electrical box 421 by means ofthe rivet 435, thereby grounding the electrical box 421.
- the ground wire adapter 427 provides a terminal screw 438 to accommodate the ground wire of a light fixture.
- the neutral wire adapter 426 also provides a terminal screw 438 to accommodate the debutral wire ofa light fixture.
- the positive wire adapter 425 provides a terminal screw 438 to supply a positive connection irrelevant to the switch circuits.
- the cable sheath 581, 591, 601 is stripped from the ends ofthe cables 17, 18, 19 before being fully inserted into the cable ports 466, 467, 468, 469, 470, 471, 472, 473.
- the cables 17, 18, 19, as well as the 2-wire jumper 14 and 4-wire jumpers 15, are each secured by means ofthe cable clamps 436 and the cable clamp screws 437.
- FIG. 211 there is provided an elecfrical circuit 20 utilizing some ofthe modular electrical components which comprise the present invention.
- This electrical circuit 20 is given as an example only to illustrate the electrical components and it is not intended to imply that the present invention is limited to this electrical circuit 20 as there are an unlimited number of electrical circuit configurations which may be constructed with the present invention.
- ectr ca power s supp e o e unc on ox y means o e -con uc or ca
- the junction box 12 creates seven additional power supply circuits.
- the junction box 12 provides electrical power to the receptacle circuit 80 by means of the 3-conductor cable 17.
- the 3-conductor cable 17 is connected to the wallbox 1 into which the receptacle module 2 is installed.
- the wallbox 1 creates three additional power supply circuits.
- the wallbox jumper 16 provides electrical power to the adjacent wallbox 1 which also contains a receptacle module 2.
- the junction box 12 provides electrical power to the GFCI-receptacle circuit 850 by means ofthe 3-conductor cable 17.
- the 3-conductor cable 17 is connected to the wallbox 1 into which the GFCI-receptacle module 10 is installed.
- the wallbox 1 creates two additional GFCI power supply circuits.
- the junction box 12 provides electrical power to the ganging-module circuit 140 by means ofthe 3-conductor cable 17.
- the 3-conductor cable 17 is connected to the wallbox 1 into which the ganging module 3 is installed.
- the wallbox 1 creates three additional power supply circuits.
- the junction box 12 provides electrical power, by means ofthe 3-conductor cable 17, to a 2-way-lighting circuit 535 in which a 2-way-switch module 4 is utilized.
- the 3-conductor cable 17 is connected to the light box 13.
- a 2-way-switch module 4 is connected to the light box 13 by means ofthe 3-conductor cable 17.
- the 2-way-switch module 4 is installed into a wallbox 1 to which the 3-conductor cable 17 is connected.
- One 2-wire jumper 14 and two 4- wire jumpers 15 are installed into the light box 13 to simulate unused switch circuits.
- the light box 13 creates one additional power supply circuit.
- the junction box 12 provides electrical power, by means ofthe 3-conductor cable 17, to another 2-way-lighting circuit 535 in which a dimmer switch module 7 is utilized.
- the 3- conductor cable 17 is cormected to the light box 13.
- a dimmer switch module 7 is connected to the light box 13 by means ofthe 3-conductor cable 17.
- the dimmer switch module 7 is installed into a wallbox 1 to which the 3-conductor cable 17 is cormected.
- One 2-wire jumper 14 and two 4-wire jumpers 15 are installed into the light box 13 to simulate unused switch circuits.
- the light box 13 creates one additional power supply circuit.
- the same lighting circuit may be illustrated utilizing the fan-control switch module 8 or the timer switch module 9 in lieu ofthe dimmer switch module 7.
- the junction box 12 provides electrical power to the 3-way-lighting circuit 536 by means ofthe 3-conductor cable 17.
- the 3-conductor cable 17 is connected to the light box 13.
- Two 3-way-switch modules 5 are connected to the light box 13 by means of 4-conductor cables
- the 3-way-switch modules 5 are each installed into a wallbox 1 to which the 4-conductor cable 18 is connected.
- Two 4-wire jumpers 15 are installed into the light box 13 to simulate unused switch circuits.
- the light box 13 creates one additional power supply circuit.
- the ganging-module circuit 140 provides electrical power to the 4-way-lighting circuit 537 by means ofthe 3-conductor cable 17.
- the 3-conductor cable 17 is connected to the light box 13.
- Two 3-way-switch modules 5 are connected to the light box 13 by means of 4- . - y- u es eac n o a w the 4-conductor cable 18 is connected.
- Two 4-way-switch modules 6 are also connected to the light box 13 by means of 5-conductor cables 19.
- the 4-way-switch modules 6 are each installed into a wallbox 1 to which the 5-conductor cable 19 is connected.
- the light box 13 creates one additional power supply circuit.
- the light box 13 is connected to a second light box 13 by- means of a 3-conductor cable 17.
- the two light boxes 13 operate in unison.
- the components which comprise the present invention may be manufactured as described previously using typical modern manufacturing facilities and practices.
- the cost of production for some ofthe components may be higher than that of conventional components.
- the modular electrical system may be used in residential structures as well as commercial buildings.
- the components may be marketed and distributed in the same manner as conventional components are distributed currently.
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Installation Of Indoor Wiring (AREA)
- Details Of Indoor Wiring (AREA)
- Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
Abstract
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09/029,480 US6156971A (en) | 1995-08-24 | 1996-08-22 | Modular electrical system |
AU75500/96A AU7550096A (en) | 1995-08-24 | 1996-08-22 | Modular electrical system |
EP96940625A EP0846355A4 (fr) | 1995-08-24 | 1996-08-22 | Appareillage electrique modulaire |
CA002227931A CA2227931C (fr) | 1995-08-24 | 1996-08-22 | Appareillage electrique modulaire |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US51874795A | 1995-08-24 | 1995-08-24 | |
US08/518,747 | 1995-08-24 | ||
US08/595,184 | 1996-02-01 | ||
US08/595,184 US5595491A (en) | 1996-02-01 | 1996-02-01 | 240 volt receptacle module for modular electrical system |
Related Child Applications (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US09/029,480 A-371-Of-International US6156971A (en) | 1995-08-24 | 1996-08-22 | Modular electrical system |
US09/729,231 Division US6465735B2 (en) | 1998-02-24 | 2000-12-04 | Modular electrical system |
US09/729,117 Continuation US6563049B2 (en) | 1998-02-24 | 2000-12-04 | Modular electrical system |
Publications (1)
Publication Number | Publication Date |
---|---|
WO1997008796A1 true WO1997008796A1 (fr) | 1997-03-06 |
Family
ID=27059578
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US1996/013727 WO1997008796A1 (fr) | 1995-08-24 | 1996-08-22 | Appareillage electrique modulaire |
Country Status (5)
Country | Link |
---|---|
US (1) | US6156971A (fr) |
EP (1) | EP0846355A4 (fr) |
AU (1) | AU7550096A (fr) |
CA (1) | CA2227931C (fr) |
WO (1) | WO1997008796A1 (fr) |
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- 1996-08-22 WO PCT/US1996/013727 patent/WO1997008796A1/fr not_active Application Discontinuation
- 1996-08-22 CA CA002227931A patent/CA2227931C/fr not_active Expired - Fee Related
- 1996-08-22 AU AU75500/96A patent/AU7550096A/en not_active Abandoned
- 1996-08-22 US US09/029,480 patent/US6156971A/en not_active Expired - Fee Related
- 1996-08-22 EP EP96940625A patent/EP0846355A4/fr not_active Withdrawn
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Non-Patent Citations (1)
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See also references of EP0846355A4 * |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0924828A1 (fr) * | 1997-12-18 | 1999-06-23 | D'Aloia, Nicola | Système modulaire électrique et ses composants |
WO2001054243A1 (fr) * | 2000-01-24 | 2001-07-26 | Peter Anthony Deboeck | Accessoires electriques embrochables |
GB2421368A (en) * | 2005-08-19 | 2006-06-21 | Carl Attenborough | Modular outdoor electrical supply and distribution system |
GB2421368B (en) * | 2005-08-19 | 2007-07-04 | Carl Attenborough | Modular outdoor electrical supply and distribution systems |
TWI762069B (zh) * | 2018-10-09 | 2022-04-21 | 美商山姆科技公司 | 連接器以及相關的板件、托盤、基板 |
Also Published As
Publication number | Publication date |
---|---|
EP0846355A1 (fr) | 1998-06-10 |
CA2227931C (fr) | 2009-07-07 |
US6156971A (en) | 2000-12-05 |
AU7550096A (en) | 1997-03-19 |
EP0846355A4 (fr) | 1999-03-24 |
CA2227931A1 (fr) | 1997-03-06 |
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